Repeal of the Clean Power Plan; Emission Guidelines for Greenhouse Gas Emissions From Existing Electric Utility Generating Units; Revisions to Emission Guidelines Implementing Regulations, 32520-32584 [2019-13507]
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Federal Register / Vol. 84, No. 130 / Monday, July 8, 2019 / Rules and Regulations
ENVIRONMENTAL PROTECTION
AGENCY
40 CFR Part 60
[EPA–HQ–OAR–2017–0355: FRL–9995–70–
OAR]
RIN 2060–AT67
Repeal of the Clean Power Plan;
Emission Guidelines for Greenhouse
Gas Emissions From Existing Electric
Utility Generating Units; Revisions to
Emission Guidelines Implementing
Regulations
Environmental Protection
Agency (EPA).
ACTION: Final rule.
AGENCY:
The U.S. Environmental
Protection Agency (EPA) is finalizing
three separate and distinct rulemakings.
First, the EPA is repealing the Clean
Power Plan (CPP) because the Agency
has determined that the CPP exceeded
the EPA’s statutory authority under the
Clean Air Act (CAA). Second, the EPA
is finalizing the Affordable Clean Energy
rule (ACE), consisting of Emission
Guidelines for Greenhouse Gas (GHG)
Emissions from Existing Electric Utility
Generating Units (EGUs) under CAA
section 111(d), that will inform states on
the development, submittal, and
implementation of state plans to
establish performance standards for
GHG emissions from certain fossil fuelfired EGUs. In ACE, the Agency is
finalizing its determination that heat
rate improvement (HRI) is the best
system of emission reduction (BSER) for
reducing GHG—specifically carbon
dioxide (CO2)—emissions from existing
coal-fired EGUs. Third, the EPA is
finalizing new regulations for the EPA
and state implementation of ACE and
any future emission guidelines issued
under CAA section 111(d).
DATES: Effective September 6, 2019.
ADDRESSES: The EPA has established a
docket for these actions under Docket ID
No. EPA–HQ–OAR–2017–0355. All
documents in the docket are listed on
the https://www.regulations.gov/
website. Although listed, some
information is not publicly available,
e.g., confidential business information
(CBI) or other information whose
disclosure is restricted by statute.
Certain other material, such as
copyrighted material, is not placed on
the internet and will be publicly
available only in hard copy form.
Publicly available docket materials are
available electronically through https://
www.regulations.gov/ or in hard copy at
the EPA Docket Center, WJC West
Building, Room 3334, 1301 Constitution
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SUMMARY:
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Ave. NW, Washington, DC. The EPA’s
Public Reading Room hours of operation
are 8:30 a.m. to 4:30 p.m. Eastern
Standard Time (EST), Monday through
Friday. The telephone number for the
Public Reading Room is (202) 566–1744,
and the telephone number for the EPA
Docket Center is (202) 566–1742.
For
questions about these final actions,
contact Mr. Nicholas Swanson, Sector
Policies and Programs Division (Mail
Code D205–01), Office of Air Quality
Planning and Standards, U.S.
Environmental Protection Agency,
Research Triangle Park, North Carolina
27711; telephone number: (919) 541–
4080; fax number: (919) 541–4991; and
email address: swanson.nicholas@
epa.gov.
FOR FURTHER INFORMATION CONTACT:
SUPPLEMENTARY INFORMATION:
Preamble acronyms and
abbreviations. The EPA uses multiple
acronyms and terms in this preamble.
While this list may not be exhaustive, to
ease the reading of this preamble and for
reference purposes, the EPA defines the
following terms and acronyms:
ACE Affordable Clean Energy Rule
AEO Annual Energy Outlook
ANPRM Advance Notice of Proposed
Rulemaking
BACT Best Available Control Technology
BSER Best System of Emission Reduction
Btu British Thermal Unit
CAA Clean Air Act
CCS Carbon Capture and Storage (or
Sequestration)
CFR Code of Federal Regulation
CO2 Carbon Dioxide
CPP Clean Power Plan
EGU Electric Utility Generating Unit
EIA Energy Information Administration
EPA Environmental Protection Agency
FIP Federal Implementation Plan
GHG Greenhouse Gas
HRI Heat Rate Improvement
IGCC Integrated Gasification Combined
Cycle
kW Kilowatt
kWh Kilowatt-hour
MW Megawatt
MWh Megawatt-hour
NAAQS National Ambient Air Quality
Standards
NGCC Natural Gas Combined Cycle
NOX Nitrogen Oxides
NSPS New Source Performance Standards
NSR New Source Review
OMB Office of Management and Budget
PM2.5 Fine Particulate Matter
PRA Paperwork Reduction Act
PSD Prevention of Significant Deterioration
RIA Regulatory Impact Analysis
RTC Response to Comments
SIP State Implementation Plan
SO2 Sulfur Dioxide
UMRA Unfunded Mandates Reform Act
U.S. United States
VFD Variable Frequency Drive
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Organization of this document. The
information in this preamble is
organized as follows:
I. General Information
A. Executive Summary
B. Where can I get a copy of this document
and other eelated information?
C. Judicial Review and Administrative
Reconsideration
II. Repeal of the Clean Power Plan
A. Background for the Repeal of the Clean
Power Plan
B. Basis for Repealing the Clean Power
Plan
C. Independence of Repeal of the Clean
Power Plan
III. The Affordable Clean Energy Rule
A. The Affordable Clean Energy Rule
Background
B. Legal Authority To Regulate EGUs
C. Designated Facilities for the Affordable
Clean Energy Rule
D. Regulated Pollutant
E. Determination of the Best System of
Emission Reduction
F. State Plan Development
G. Impacts of the Affordable Clean Energy
Rule
IV. Changes to the Implementing Regulations
for CAA Section 111(d) Emission
Guidelines
A. Regulatory Background
B. Provisions for Superseding
Implementing Regulations
C. Changes to the Definition of ‘‘Emission
Guidelines’’
D. Updates to Timing Requirements
E. Compliance Deadlines
F. Completeness Criteria
G. Standard of Performance
H. Remaining Useful Life and Other
Factors Provision
V. Statutory and Executive Order Reviews
A. Executive Order 12866: Regulatory
Planning and Review and Executive
Order 13563: Improving Regulation and
Regulatory Review
B. Executive Order 13771: Reducing
Regulation and Controlling Regulatory
Costs
C. Paperwork Reduction Act (PRA)
D. Regulatory Flexibility Act (RFA)
E. Unfunded Mandates Reform Act
(UMRA)
F. Executive Order 13132: Federalism
G. Executive Order 13175: Consultation
and Coordination With Indian Tribal
Governments
H. Executive Order 13045: Protection of
Children From Environmental Health
Risks and Safety Risks
I. Executive Order 13211: Actions
Concerning Regulations That
Significantly Affect Energy Supply,
Distribution, or Use
J. National Technology Transfer and
Advancement Act (NTTAA)
K. Executive Order 12898: Federal Actions
To Address Environmental Justice in
Minority Populations and Low-Income
Populations
L. Congressional Review Act (CRA)
VI. Statutory Authority
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I. General Information
A. Executive Summary
With this document, the EPA is, after
review and consideration of public
comments, finalizing three separate and
distinct rulemakings. First, the EPA is
finalizing the repeal of the CPP which
was proposed at 82 FR 48035 (Oct. 16,
2017) (‘‘Proposed Repeal’’). Second, the
EPA is promulgating ACE, which
consists of emission guidelines for states
to develop and submit to the EPA plans
that establish standards of performance
for CO2 emissions from certain existing
coal-fired EGUs within their
jurisdictions. Third, the EPA is
finalizing implementing regulations that
provide direction to both the EPA and
states on the implementation of ACE
and any future emission guidelines
issued under CAA section 111(d). This
document does not include any final
action concerning the New Source
Review (NSR) reforms the EPA
proposed in conjunction with the ACE
proposal; the EPA intends to take final
action on the proposed NSR reforms in
a separate final action at a later date.
First, the EPA is repealing the CPP. In
proposing to repeal the CPP, the Agency
proposed a change in the legal
interpretation of CAA section 111, on
which the CPP was based, to an
interpretation of the CAA that ‘‘is
consistent with the CAA’s text, context,
structure, purpose, and legislative
history, as well as with the Agency’s
historical understanding and exercise of
its statutory authority.’’ 1 After further
review of the EPA’s statutory authority
under CAA section 111 and in
consideration of public comments, the
Agency is finalizing the repeal of the
CPP. The discussion of the repeal
action, along with the EPA’s
explanation that it intends the repeal of
the CPP to be independent from the
other final actions in this document, can
be found in section II below.
Second, the EPA is finalizing ACE,
which consists of emission guidelines to
inform states in the development,
submittal, and implementation of state
plans that establish standards of
performance for CO2 from certain
existing coal-fired EGUs within their
jurisdictions. In these emission
guidelines, the EPA has determined that
the BSER for existing EGUs is based on
HRI measures that can be applied to a
designated facility. ACE also clarifies
the roles of the EPA and the states under
CAA section 111(d). With the
promulgation of this action, it is the
states’ responsibility to use the
information and direction herein to
1 Proposed
Repeal, 82 FR 48036.
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develop standards of performance that
reflect the application of the BSER. Per
the CAA, states may also consider
source-specific factors—including,
among other factors, the remaining
useful life of an existing source—in
applying a standard of performance to
that source. In this way, the state and
federal roles complement each other as
the EPA has the authority and
responsibility to determine BSER at the
national level, while the states have the
authority and responsibility to establish
and apply standards of performance for
their existing sources, taking into
consideration source-specific factors
where appropriate. A full discussion of
ACE can be found in section III of this
preamble.
Third, the EPA is finalizing new
implementing regulations that apply to
ACE and any future emission guidelines
promulgated under CAA section 111(d).
The purpose of the new implementing
regulations is to harmonize aspects of
our existing regulations with the statute,
in a new 40 CFR part 60, subpart Ba, by
making it clear that states have broad
discretion in establishing and applying
emissions standards consistent with the
BSER. The new implementing
regulations also provide changes to the
timing requirements for the EPA and
states to take action to more closely
align with the CAA section 110 state
implementation plan (SIP) and federal
implementation plan (FIP) deadlines.
The discussion of the final revisions to
the implementing regulations is found
in section IV below.
The implementing regulations (and
ACE which is promulgated consistent
with those regulations) make clear that
the EPA, states, and sources all have
distinct roles, responsibilities, and
flexibilities under CAA section 111(d).
Specifically, the EPA identifies the
BSER; states establish standards of
performance for existing sources within
their jurisdiction consistent with that
BSER and also with the flexibility to
consider source-specific factors,
including remaining useful life; and
sources then meet those standards using
the technologies or techniques they
believe is most appropriate. As this
preamble explains, in the case of ACE,
the EPA has identified the BSER as a set
of heat rate improvement measures.
States will establish standards of
performance for existing sources based
on application of those heat rate
improvement measures (considering
source-specific factors, including
remaining useful life). Each regulated
source then must meet those standards
using the measures they believe is
appropriate (e.g., via the heat rate
improvement measures identified by the
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EPA as the BSER, other heat rate
improvement measures, or other
approaches such as CCS or natural gas
co-firing).
These three rules have been informed
by more than 1.5 million public
comments on the Proposed Repeal and
500,000 public comments on the
proposals for ACE and the new
implementing regulations. Per CAA
section 307(d)(6)(B), the EPA is
providing a response to the significant
comments received for each of these
actions in the docket. After careful
consideration of the comments, the EPA
is finalizing these three rules, with
revisions to what it proposed where
appropriate, to provide states guidance
on how to address CO2 emissions from
coal-fired power plants in a way that is
consistent with the EPA’s authority
under the CAA.
B. Where can I get a copy of this
document and other related
information?
In addition to being available in the
docket, an electronic copy of this
document is available on the internet.
Following signature by the EPA
Administrator, the EPA will post a copy
of this document at https://
www.epa.gov/stationary-sources-airpollution/electric-utility-generatingunits-emission-guidelines-greenhouse.
Following publication in the Federal
Register, the EPA will post the Federal
Register version of these final rules and
key technical documents at this same
website.
C. Judicial Review and Administrative
Reconsideration
Under CAA section 307(b)(1), judicial
review of these final actions is available
only by filing a petition for review in
the United States Court of Appeals for
the District of Columbia Circuit (D.C.
Circuit) by September 6, 2019. Under
CAA section 307(b)(2), the requirements
established by these final rules may not
be challenged separately in any civil or
criminal proceedings brought by the
EPA to enforce the requirements.
Section 307(d)(7)(B) of the CAA
further provides that only an objection
to a rule or procedure which was raised
with reasonable specificity during the
period for public comment (including
any public hearing) may be raised
during judicial review. This section also
provides a mechanism for the EPA to
reconsider a rule if the person raising an
objection can demonstrate to the
Administrator that it was impracticable
to raise such objection within the period
for public comment or if the grounds for
such objection arose after the period for
public comment (but within the time
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specified for judicial review) and if such
objection is of central relevance to the
outcome of the rule. Any person seeking
to make such a demonstration should
submit a Petition for Reconsideration to
the Office of the Administrator, U.S.
EPA, Room 3000, WJC South Building,
1200 Pennsylvania Ave. NW,
Washington, DC 20460, with a copy to
both the person(s) listed in the
preceding FOR FURTHER INFORMATION
CONTACT section, and the Associate
General Counsel for the Air and
Radiation Law Office, Office of General
Counsel (Mail Code 2344A), U.S. EPA,
1200 Pennsylvania Ave. NW,
Washington, DC 20460.
II. Repeal of the Clean Power Plan
A. Background for the Repeal of the
Clean Power Plan
1. The Clean Power Plan
The EPA promulgated the CPP under
section 111 of the CAA.2 Section 111(b)
authorizes the EPA to issue nationally
applicable new source performance
standards (NSPS) limiting air pollution
from ‘‘new sources’’ in source categories
that cause or significantly contribute to
air pollution that may reasonably be
anticipated to endanger public health or
welfare.3 In 2015, the EPA issued such
a rule for GHG emissions—in particular,
CO2—from certain new fossil fuel-fired
power plants 4 in light of the Agency’s
assessment ‘‘that GHGs endanger public
health, now and in the future.’’ 5 CAA
section 111(d) provides that, under
certain circumstances, when the EPA
issues a CAA section 111(b) standard,
the EPA must develop procedures
requiring each state to submit a plan to
the EPA that establishes performance
standards for existing sources in the
same category.6 The EPA relied on CAA
section 111(d) to issue the CPP, which,
for the first time, required states to
submit plans specifically designed to
limit CO2 emissions from certain
existing fossil fuel-fired power plants.
The CPP established emission
guidelines for states to follow in
2 42
U.S.C. 7411.
7411(b)(1).
4 The CPP identified ‘‘[f]ossil fuel-fired EGUs’’ as
‘‘by far the largest emitters of GHGs among
stationary sources in the U.S., primarily in the form
of CO2.’’ 80 FR 64510, 64522 (October 23, 2015).
5 Standards of Performance for Greenhouse Gas
Emissions from New, Modified, and Reconstructed
Stationary Sources: Electric Generating Units, 80 FR
64510, 64518 (October 23, 2015); see also
Endangerment and Cause or Contribute Findings for
Greenhouse Gases Under section 202(a) of the CAA,
74 FR 66496 (December 15, 2009) (2009
Endangerment Finding). The substance of the 2009
Endangerment Finding, which addressed GHG
emissions from mobile sources, is not at issue in
this action.
6 42 U.S.C. 7411(d)(1) (emphasis added).
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3 Id.
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limiting CO2 emissions from those
existing fossil fuel-fired power plants.
Those emission guidelines included
both state-specific ‘‘goals’’ and
alternative, nationally uniform CO2
emission performance rates for two
types of existing fossil fuel-fired power
plants: Electric utility steam generating
units and stationary combustion
turbines.7
In the CPP, the EPA determined that
the BSER for CO2 emissions from
existing fossil fuel-fired power plants
was the combination of: (1) Heat rate
(e.g., efficiency) improvements to be
conducted at individual power plants,
in combination with (2, 3) two other sets
of measures based on the shifting of
generation at the fleet-wide level from
one type of energy source to another.
The EPA referred to these three sets of
measures as ‘‘building blocks’’: 8
1. Improving heat rate at affected coalfired steam generating units;
2. Substituting increased generation
from lower-emitting existing natural gas
combined cycle units for decreased
generation from higher-emitting affected
steam generating units; and
3. Substituting increased generation
from new zero-emitting renewable
energy generating capacity for decreased
generation from affected fossil fuel-fired
generating units.
While building block 1 relied on
measures that could be applied directly
to individual sources, building blocks 2
and 3 employed measures that were
expressly designed to shift the balance
of coal-, gas-, and renewable-generated
power across the power grid.
2. Legal Challenges to the CPP,
Executive Order 13783, and the EPA’s
Review of the CPP
On October 23, 2015, 27 states and a
number of other parties sought judicial
review of the CPP in the U.S. Court of
Appeals for the D.C. Circuit.9 After
some preliminary briefing, the Supreme
Court stayed implementation of the
CPP, pending judicial review.10 The
case was then referred to an en banc
panel of the D.C. Circuit, which held
oral argument on September 27, 2016.
On March 28, 2017, President Trump
issued Executive Order 13783, which
affirms the ‘‘national interest to promote
clean and safe development of our
Nation’s vast energy resources, while at
the same time avoiding regulatory
burdens that unnecessarily encumber
energy production, constrain economic
growth, and prevent job creation.’’ 11
The Executive Order directs all
executive departments and agencies,
including the EPA, to ‘‘immediately
review existing regulations that
potentially burden the development or
use of domestically produced energy
resources and appropriately suspend,
revise, or rescind those that unduly
burden the development of domestic
energy resources beyond the degree
necessary to protect the public interest
or otherwise comply with the law.’’ 12
The Executive Order further affirms that
it is ‘‘the policy of the United States that
necessary and appropriate
environmental regulations comply with
the law.’’ 13 Moreover, the Executive
Order specifically directs the EPA to
review and initiate reconsideration
proceedings to ‘‘suspend, revise, or
rescind’’ the CPP ‘‘as appropriate and
consistent with law.’’ 14
In a document signed the same day as
Executive Order 13783 and published in
the Federal Register at 82 FR 16329
(April 4, 2017), the EPA announced
that, consistent with the Executive
Order, it was initiating its review of the
CPP and providing notice of
forthcoming proposed rulemakings
consistent with the Executive Order.
In light of Executive Order 13783, the
EPA’s initiation of a review of the CPP,
and notice of the EPA’s forthcoming
rulemakings, the EPA asked the D.C.
Circuit to hold the CPP litigation in
abeyance, and, on April 28, 2017, the
court (still sitting en banc) granted
motions to hold the cases in abeyance
for 60 days and directed the parties to
file briefs addressing whether the cases
should be remanded to the Agency
rather than held in abeyance.15 Since
then, the D.C. Circuit has issued a series
of orders holding the cases in abeyance.
While the case has been in abeyance,
the EPA has been reviewing the CPP
and providing status reports to the court
describing the progress of its
rulemaking.
In the course of the EPA’s review of
the CPP, the Agency also reevaluated its
interpretation of CAA section 111, and,
on that basis, the Agency proposed to
repeal the CPP.16
3. Public Comment and Hearings on the
Proposed Repeal
Publication of the Proposed Repeal in
the Federal Register opened comment
on the proposal for an initial 60-day
11 See
Executive Order 13783, section 1(a).
section 1(c).
13 Id. section 1(e).
14 Id. section 4(a)–(c).
15 Order, Document No. 1673071 (per curiam).
16 See Proposed Repeal, 82 FR 48035 (October 16,
2017).
12 Id.
7 See
80 FR 64707.
8 Id.
9 See West Virginia v. EPA, No. 15–1363 (and
consolidated cases) (D.C. Cir. October 23, 2015).
10 West Virginia v. EPA, 136 S. Ct. 1000 (2016).
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public comment period. The EPA held
public hearings on November 28 and 29,
2017, in Charleston, West Virginia, and
then extended the public comment
period until January 16, 2018. In
response to requests for additional
opportunities for oral testimony, the
EPA held three listening sessions in
Kansas City, Missouri; San Francisco,
California; and Gillette, Wyoming. The
EPA also reopened the public comment
period until April 26, 2018, giving
stakeholders 192 days to review and
comment on the proposal. The EPA
received more than 1.5 million
comments on the Proposed Repeal.
equipment and practices at the level of
an individual facility, the EPA in the
CPP set standards that could only be
achieved by a shift in the energy
generation mix at the grid level,
requiring a shift from one type of fossilfuel-fired generation to another, and
from fossil-fuel-fired generation as a
whole towards renewable sources of
energy. The text of the CAA is
inconsistent with that interpretation,
and the context, structure, and
legislative history confirm that the
statutory interpretation underlying the
CPP was not a permissible construction
of the Act.
B. Basis for Repealing the Clean Power
Plan
a. CAA Requirements and Background
1. Authority To Revisit Existing
Regulations
The EPA’s ability to revisit existing
regulations is well-grounded in the law.
Specifically, the EPA has inherent
authority to reconsider, repeal, or revise
past decisions to the extent permitted by
law so long as the Agency provides a
reasoned explanation. The authority to
reconsider prior decisions exists in part
because the EPA’s interpretations of
statutes it administers ‘‘[are not]
instantly carved in stone,’’ but must be
evaluated ‘‘on a continuing basis.’’ 17
This is true when, as is the case here,
review is undertaken ‘‘in response to
. . . a change in administrations.’’ 18
Indeed, ‘‘[a]gencies obviously have
broad discretion to reconsider a
regulation at any time.’’ 19
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2. Legal Basis for Repeal of the Clean
Power Plan
The CPP departed from the EPA’s
traditional understanding of its
authority under section 111 of the CAA
and promulgated a rule in excess of its
statutory authority. Because the CPP
significantly exceeded the Agency’s
authority, it must be repealed.20
Fundamentally, the CPP read the
statutory term ‘‘best system of emission
reduction’’ so broadly as to encompass
measures the EPA had never before
envisioned in promulgating
performance standards under CAA
section 111. In contrast to its traditional
regulations that set performance
standards based on the application of
17 Chevron U.S.A. Inc. v. NRDC, Inc., 467 U.S.
837, 863–64 (1984).
18 National Cable & Telecommunications Ass’n v.
Brand X internet Services, 545 U.S. 967, 981 (2005).
19 Clean Air Council v. Pruitt, 862 F.3d 1, 8–9
(D.C. Cir. 2017).
20 As noted above, the EPA received more than
1.5 million comments on the Proposed Repeal. The
Agency’s consideration of and responses to
significant comments are reflected in section II.B.2
of this preamble.
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In 1970, Congress enacted section
111(b) of the CAA, authorizing the EPA
to promulgate ‘‘standards of
performance’’ for new stationary sources
in certain source categories.21 Congress
also directed the EPA, under CAA
section 111(d), to ‘‘prescribe regulations
which shall establish a procedure’’ 22 for
states to establish standards 23 for
existing sources of certain air pollutants
to which a standard of performance
would apply if such existing source
were a new source.24
Since 1990, new- and existing-source
CAA section 111 rulemakings have been
governed by the same statutory
definitions.25 The CAA defines the term
‘‘standard of performance’’ in two
sections. CAA section 111(a)(1) defines
it, for purposes of section 111 (which
contains the new- and existing-source
performance standard authority in,
respectively, CAA section 111(b) and
111(d)), as:
a standard for emissions of air pollutants
which reflects the degree of emission
limitation achievable through the application
of the best system of emission reduction
which (taking into account the cost of
achieving such reduction and any nonair
quality health and environmental impact and
energy requirements) the Administrator
determines has been adequately
demonstrated.26
21 CAA Amendments of 1970, Public Law 91–604,
84 Stat. at 1683–84 (Dec. 31, 1970); see also 42
U.S.C. 7411(b).
22 See section IV (addressing changes to the
implementing regulations).
23 As originally enacted, CAA section 111
required states to establish ‘‘emission standards’’ for
existing sources, but Congress replaced that term
with ‘‘standard of performance’’ as part of the CAA
Amendments of 1977. See Public Law 95–95, 91
Stat. at 699 (Aug. 7, 1977) (‘‘Section 111(d)(1) . . .
is amended by striking out ‘emissions standards’ in
each place it appears and inserting in lieu thereof
‘standards of performance’ ’’).
24 CAA Amendments of 1970, 84 Stat. at 1684; see
also 42 U.S.C. 7411(d).
25 See infra n.51.
26 42 U.S.C. 7411(a)(1).
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And CAA section 302(l) defines
‘‘standard of performance’’ as ‘‘a
requirement of continuous emission
reduction, including any requirement
relating to the operation or maintenance
of a source to assure continuous
reduction.’’ 27
EPA’s role under CAA section 111(d)
is narrow. Indeed, CAA section 111(d)
tasks states with ‘‘establish[ing]
standards of performance for any
existing source’’ and ‘‘provid[ing] for
the implementation and enforcement of
such standards of performance.’’ It
requires further that the regulations the
EPA is directed to adopt must permit
the state ‘‘to take into consideration,
among other factors, the remaining
useful life of the existing source to
which such standard [of performance]
applies.’’ 28 After all, Congress found
that ‘‘air pollution prevention . . . and
air pollution control at its source is the
primary responsibility of States and
local governments.’’ 29
In contrast to CAA section 111(b)
(where the EPA may directly establish
performance standards for emissions
from new sources), the EPA implements
CAA section 111(d) by issuing
regulations that it calls ‘‘emission
guidelines’’ 30 These guidelines provide
states with information to assist them in
developing state plans establishing
standards of performance for existing
designated facilities within their
jurisdiction that are submitted to the
EPA for review. Such information
includes the EPA’s determination of the
‘‘best system of emission reduction,’’
which is commonly referred to as the
BSER.
b. The Plain Meaning of CAA Sections
111(a)(1) and (d)
CAA section 111(d) provides that
‘‘each State shall submit to the
Administrator a plan which (A)
establishes standards of performance for
any existing source for [certain air
pollutants] . . . and (B) provides for the
implementation and enforcement of
such standards of performance.’’ 31
Given how Congress has defined the
phrase ‘‘standard of performance’’ for
purposes of CAA section 111, the plain
meaning of CAA section 111(d),
therefore is that states shall submit a
plan which ‘‘establishes [a standard for
27 42
U.S.C. 7602(l).
U.S.C. 7411(d)(1).
29 42 U.S.C. 7401(a)(3).
30 See American Elec. Power Co. v. Connecticut,
564 U.S. 410, 424 (2011). See generally Section IV,
infra (discussing the promulgation of revised
implementing regulations governing the EPA’s
issuance of emission guidelines); 40 CFR part 60,
subpart B.
31 42 U.S.C. 7411(d)(1) (emphasis added).
28 42
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emissions of air pollutants which
reflects the degree of emission
limitation achievable through the
application of the [BSER] . . .] for any
existing source.’’
While CAA section 111(a)(1) provides
that the EPA determines the BSER upon
which existing-source performance
standards are based, Congress expressly
limited the universe of systems of
emission reduction from which the EPA
may choose the BSER to those systems
whose ‘‘application’’ to an ‘‘existing
source’’ will yield an ‘‘achievable’’
‘‘degree of emission limitation.’’ 32
‘‘[W]here . . . the statute’s language is
plain,’’ courts explain, our ‘‘ ‘sole
function . . . is to enforce it according
to its terms.’ ’’ 33
The EPA begins with the meaning of
‘‘application,’’ as it appears in CAA
section 111(a)(1). In the absence of a
statutory definition, the term must be
construed in accordance with its
ordinary or natural meaning.34 Here the
ordinary meaning of ‘‘application’’
refers to the ‘‘act of applying’’ or the
‘‘act of putting to use.’’ 35 Accordingly,
a standard of performance must reflect
the degree of emission limitation that
can be achieved by putting the BSER
into use. Furthermore, the ordinary and
natural use of the term ‘‘application,’’
which is derived from the verb ‘‘to
apply,’’ requires both a direct object and
an indirect object. In other words,
someone must apply something to
something else (e.g., the application of
general rules to particular cases). In the
case of CAA section 111, the direct
object is the BSER. CAA section 111(d)
also provides that the indirect object is
the ‘‘existing source’’—‘‘each State shall
submit to the Administrator a plan
which (A) establishes standards of
performance for any existing source’’
(emphasis added). The Act further
defines an ‘‘existing source’’ as ‘‘any
stationary source other than a new
source,’’ 36 and in turn defines a
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32 Id.
33 Air Line Pilots Ass’n v. Chao, 167 F.3d 602, 791
(D.C. Cir. 2018) (quoting United States v. Ron Pair
Enterprises, 489 U.S. 235, 241 (1989)).
34 See Leocal v. Ashcroft, 543 U.S. 1, 10 (2004).
35 Merriam-Webster’s Collegiate Dictionary (11th
ed. 2003) (‘‘1: an act of applying: a (1) : an act of
putting to use <∼ of new techniques> (2) : a use to
which something is put <new ∼s for old
remedies>’’). Definitions are also provided from
when CAA section 111(a)(1) was last amended, see
The Oxford English Dictionary (2d ed. 1989) (‘‘The
action of applying; the thing applied. 1. a. The
action of putting a thing to another, of bringing into
material or effective contact’’), and first enacted, see
American Heritage Dictionary of the English
Language (2d ed. 1969) (‘‘1. The act of applying or
putting something on. 2. Anything that is applied,
such as a cosmetic or curative agent. 3. The act of
putting something to a special use or purpose.’’).
36 42 U.S.C. 7411(a)(6).
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‘‘stationary source’’ as ‘‘any building,
structure, facility, or installation which
emits or may emit any air pollutant.’’ 37
Consequently, CAA section 111
unambiguously limits the BSER to those
systems that can be put into operation
at a building, structure, facility, or
installation. Such systems include, for
example, add-on controls (e.g.,
scrubbers) and inherently loweremitting processes/practices/designs.
Conversely, the plain language of
CAA section 111 does not authorize the
EPA to select as the BSER a system that
is premised on application to the source
category as a whole or to entities
entirely outside the regulated source
category. First, Congress specified that
‘‘standards of performance’’ are
established ‘‘for new sources within
such category ’’ 38 and ‘‘for any existing
source.’’ 39 CAA section 111, therefore,
does not allow for the establishment of
standards for the source category or for
entities not within the source category.
Instead, CAA section 111 standards
must be established for individual
sources. Second, because CAA section
111 standards reflect an ‘‘achievable’’
‘‘degree of emission limitation’’ through
application of the BSER, an owner or
operator must be able to achieve an
applicable standard by applying the
BSER to the designated facility.
Accordingly, the BSER—like standards
of performance—cannot be premised on
a system of emission reduction that is
implementable only through the
combined activities of sources or nonsources. Thus, the EPA is precluded
from basing BSER on strategies like
generation shifting and corresponding
emissions offsets because these types of
systems cannot be put into use at the
regulated building, structure, facility, or
installation.40
c. Statutory Structure and Purpose
Confirm That a ‘‘System of Emission
Reduction’’ Must Be Applied to an
Individual Source and That CAA
Section 111 is Intended to Best Design,
Build, Equip, Operate, and Maintain
Sources so as To Reduce Emissions
While the plain meaning of CAA
section 111 provides that the BSER must
be applied to a building, structure,
U.S.C. 7411(a)(3).
U.S.C. 7411(b)(1)(B) (requiring the
Administrator to establish performance standards
‘‘for new sources within such category’’ rather than
for the category itself as a whole) (emphasis added)
39 42 U.S.C. 7411(d)(1)(A).
40 The CPP’s BSER was in part designed to consist
of generation-shifting. See, e.g., 80 FR 64,776 (final
rule) (describing ‘building blocks’ 2 and 3 as
‘‘processes of shifting dispatch from steam
generators to existing NGCC units and from both
steam generators and NGCC units to renewable
generators.’’).
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38 42
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facility, or installation, Congress’ intent
is also manifest in the statutory
structure and purpose. ‘‘Statutory
construction,’’ the Supreme Court
instructs, ‘‘is a holistic endeavor.’’ 41
The interpretation of a phrase ‘‘is often
clarified by the remainder of the
statutory scheme—because the same
terminology is used elsewhere in a
context that makes its meaning clear, or
because only one of the permissible
meanings produces a substantive effect
that is compatible with the rest of the
law.’’ 42
(1) The Statutory Structure Limits a
‘‘System of Emission Reduction’’ to
‘‘Systems’’ That Have a Potential for
Application to an Individual Source
The conclusion that CAA section 111
standards are limited as described above
is confirmed by considering the
section’s place in the overall statutory
scheme. Congress tied CAA section 111
to the Best Available Control
Technology (‘‘BACT’’) provisions in
CAA section 165.43 Section 165
provides that ‘‘[a]ny major stationary
source or major modification subject to
[preconstruction requirements] must
conduct an analysis to ensure the
application of [BACT].’’ 44 A permitting
authority must ‘‘conduct a BACT
analysis on a case-by-case basis . . . and
must evaluate the amount of emission
reductions that each available
emissions-reducing technology or
technique would achieve, as well as the
energy, environmental, economic and
other costs . . . .’’ 45 The EPA has long
recommended that permitting agencies
conduct this analysis through a topdown assessment of the best available
and feasible control technologies for the
emissions subject to BACT.46 ‘‘Based on
41 Czyzewski v. Jevic Holding Corp., 137 S. Ct.
973, 985 (2017) (citing United Savings Ass’n v.
Timbers of Inwood Forest Associates, 484 U.S. 365,
371 (1988)).
42 Utility Air Regulatory Group v. EPA, 573 U.S.
302, 321 (2014).
43 42 U.S.C. 7479(3) (‘‘In no event shall
application of ‘best available control technology’
result in emissions of any pollutants which will
exceed the emissions allowed by any applicable
standard established pursuant to section 7411 or
7412 of this title.’’).
44 U.S. EPA, DRAFT New Source Review
Workshop Manual: Prevention of Significant
Deterioration and Nonattainment Area Permitting,
B. 1 (October 1990) (‘‘NSR Manual’’), available at
https://www.epa.gov/sites/production/files/201507/documents/1990wman.pdf. Though the EPA
never finalized this draft, it continues to follow the
analytical approach to the BACT analysis contained
within the NSR Manual. See also U.S. EPA, PSD
and Title V Permitting Guidance for Greenhouse
Gases (March 2011) (‘‘GHG Permitting Guidance’’),
available at https://www.epa.gov/sites/production/
files/2015-07/documents/ghgguid.pdf.
45 GHG Permitting Guidance at 17 (emphasis
added).
46 See id. at 17–44.
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this [technology] assessment, the
permitting authority must [then]
establish a numeric emission limitation
that reflects the maximum degree of
reduction achievable. . . .’’ 47
In no event, Congress specified, can
application of BACT result in greater
emissions than allowed by ‘‘any
applicable standard established
pursuant to section [1]11 or [1]12
. . . .’’ 48 To ensure such an exceedance
does not occur, NSPS serve as the base
upon which BACT determinations are
made and are commonly viewed as the
BACT ‘‘floor.’’ 49 However, because
Congress refers to ‘‘any applicable
standard established pursuant to section
[1]11,’’ without reference to either
subsection (b) or (d), any applicable
existing source standard would also
function as a BACT ‘‘floor.’’ 50
The EPA has consistently taken the
position that BACT encompasses ‘‘all
‘available’ control options . . . that have
47 Id.
at 17, 44–46.
U.S.C. 7479(3).
49 GHG Permitting Guidance, 25 n.64 (‘‘While this
guidance is being issued at a time when no NSPS
have been established for GHGs, permitting
authorities must consider any applicable NSPS as
a controlling floor in determining BACT once any
such standards are final.’’).
50 Accordingly, certain commenters incorrectly
argue that the scope of CAA section 169 is
irrelevant to regulating existing sources under CAA
section 111(d) because only CAA section 111(b)
standards (i.e., NSPS), not CAA section 111(d)
existing-source standards, apply to sources subject
to BACT. However, both CAA section 111(b) and (d)
rely on the same definition of ‘‘standard of
performance’’ in CAA section 111(a), and the term’s
statutory history (that is, its evolution through
repeated acts of Congress from 1970 to 1990)
supports the conclusion that Congress intended for
the term to have the same meaning under both
programs. Between the 1970 and 1977 CAA
Amendments, ‘‘standards of performance’’ applied
only to the regulation of new sources under CAA
section 111(b); existing sources, on the other hand,
were required to meet ‘‘emission standards,’’ which
was an undefined term. See Public Law 91–604, 84
Stat. at 1683–84. Between the 1977 and 1990 CAA
Amendments, CAA section 111(a)(1) provided three
context-specific definitions: One definition applied
to all new stationary sources regulated under CAA
section 111(b) (basing standards on the best
technological system of continuous emission
reduction (‘‘TSCER’’)); the second applied only to
new fossil-fuel-fired sources regulated under CAA
section 111(b) (basing standards on the TSCER and
requiring a percent reduction in emissions); and a
third applied to existing sources regulated under
CAA section 111(d) (basing standards on the best
system of continuous emission reduction). See
Public Law 95–95, 91 Stat. at 699–700. In 1990,
however, Congress replaced the three separate
definitions with a singular definition of ‘‘standard
of performance’’ under CAA section 111(a)(1), to
apply throughout CAA section 111, based on
application of the BSER. See Public Law 101–549,
104 Stat. at 2631. The legislative history of CAA
section 111 demonstrates that Congress knew full
well how to require either that the regulations
applying to new and existing sources would be
different in definition and scope (as in both the
1970 and 1977 versions of the Act) or that they
would be the same and demonstrates that in 1990
they plainly chose the latter course.
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48 42
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the potential for practical application to
the emissions unit and the regulated
pollutant under evaluation.’’ 51 This is
so because BACT reflects a level of
control that the permitting agency
‘‘determines is achievable for such
facility through application of
production processes and available
methods, systems, and techniques,
including fuel cleaning, clean fuels, or
treatment or innovative fuel combustion
techniques for control.’’ 52 Put simply,
both the statutory text and the EPA’s
long-standing interpretation provide
that BACT is limited to control options
that can be applied to the source itself
and does not include control options
that go beyond the source.
Because CAA section 111 operates as
a floor to BACT, section 111 cannot be
interpreted to offer a broader set of tools
than are available under section 165.
Also, because BACT is limited to
control options that are applied to an
individual source, so too with section
111. The explicit statutory link of CAA
section 111 standards to BACT, the
statutory definition of the latter, the
Agency’s consistent position that BACT
must apply to and be achievable for a
particular facility, and the text of CAA
section 111(b) and 111(d), confirm the
conclusion that the text of 111(a)(1) can
only be read to mean that standards of
performance (and the BSER on which
they are predicated) are likewise
measures applied to individual
facilities.
(2) The Purpose of CAA Section 111 is
To Design, Build, Equip, Operate, and
Maintain Individual Sources so as To
Reduce Emissions
Congress intended that CAA section
111 would set minimum requirements 53
51 GHG Permitting Guidance, 24 (emphasis
added).
52 42 U.S.C. 7479(3) (emphasis added).
53 In a 1978 BACT guidance document, the EPA
explained that performance standards reflect
emission limits ‘‘which can reasonably be met by
all new or modified sources in an industrial
category, even though some individual sources are
capable of lower emissions. Additionally, because
of resource limitations in the EPA, revision of new
source standards must lag somewhat behind the
evolution of new or improved technology.
Accordingly, new or modified facilities in some
source categories may be capable of achieving lower
emission levels that [sic] NSPS without substantial
economic impacts. The case-by-case BACT
approach provides a mechanism for determining
and applying the best technology in each individual
situation. Hence, NSPS and NESHAP are Federal
guidelines for BACT determinations and establish
minimum acceptable control requirements for a
BACT determination.’’ U.S. EPA, Guidelines for
Determining Best Available Control Technology, 3
(December 1978).
Further, while some commenters suggest that the
BSER must reflect the ‘‘greatest degree of emission
control,’’ citing to section 113 of Senate bill 4358
(S. 4358, at 6, 1970 Legis. Hist. at 554–55), Congress
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32525
on individual sources to be designed,
built, equipped, operated, and
maintained to reduce emissions. This
purpose is evidenced in the history of
CAA section 111(a)(1)’s text and
corroborated by legislative history. CAA
section 111 was originally enacted as
part of the 1970 CAA Amendments. In
that enactment, state plans under CAA
section 111(d) were to establish
‘‘emission standards’’ rather than
‘‘standards of performance.’’ The EPA’s
CAA section 111(d) implementing
regulations, issued in 1975, provided
that, in the case of existing sources, the
EPA would issue ‘‘emissions
guidelines,’’ that these guidelines would
‘‘reflect the degree of emission
reduction achievable through the
application of the [BSER] which (taking
into account the cost of such reduction)
the Administrator has determined has
been adequately demonstrated for
designated facilities,’’ and that state
plans establishing standards of
performance for existing sources would
be developed in light of these
guidelines.54 Then in 1977, Congress
replaced the term ‘‘emission standard’’
under CAA section 111(d) with the
phrase ‘‘standard of performance’’—a
phrase defined for all of CAA section
111 in section 111(a)(1). Thus, the
history behind CAA section 111(a)(1) is
relevant to understanding EPA’s
authority for both sections 111(b) and
(d).
The 1970 enactment of CAA section
111 represents a choice between two
alternative approaches to direct federal
regulation of stationary sources. Under
the House bill, the Administrator would
have been authorized to establish
‘‘emission standards’’ for new sources of
pollutants that may contribute
substantially to endangerment of the
public health or welfare. These
standards would have ‘‘require[d] that
new sources of such emissions be
designed and equipped to maximize
emission control insofar as
technologically and economically
feasible.’’ 55 The House bill did not
contain any analogous provisions for
existing sources. Nevertheless, the
House bill contemplated that under
CAA section 111, individual sources
would be designed to emit less.
Under the Senate approach, the
Administrator would have established
imposed no such requirement. See Sierra Club, 657
F.2d at 330 (‘‘we believe it is clear that this language
is far different from the words Congress would have
chosen to mandate that the EPA set standards at the
maximum degree of pollution control
technologically achievable.’’).
54 40 FR 53346.
55 H.R. Conf. Rep. No. 91–1783, 46 (December 17,
1970) (emphasis added).
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‘‘standards of performance’’ for new
sources based ‘‘on the greatest emission
control possible through application of
[the] latest available control
technology.’’ 56 This would have
ensured ‘‘that new stationary sources
are designed, built, equipped, operated,
and maintained so as to reduce
emission[s] to a minimum.’’ 57
Accordingly, such standards would
have reflected ‘‘the degree of emission
control which can be achieved through
process changes, operation changes,
direct emission control, or other
methods.’’ 58 A separate provision
governing emissions of ‘‘selected
agents’’ authorized the Administrator to
develop ‘‘emission standards’’ for both
new and existing sources.59 However,
the Senate ‘‘recognize[d] that certain old
facilities may use equipment and
processes which are not suited to the
application of control technology. The
[Administrator] would be authorized
therefore to waive the application of
standards . . . .’’ 60
The conference substitute settled on
the language largely reflected in the
current wording of CAA section
111(a)(1); the differences between the
1970 enactment and the current version
are not relevant to this discussion. As
explained above, both the Senate and
House bills contemplated only control
measures that would lead to better
design, construction, operation, and
maintenance of an individual source 61
and, in the case of existing sources
under the Senate bill, the waiver of
standards if certain sources could not
apply new control technologies.
Accordingly, recognizing that a ‘‘system
of emission reduction’’ is limited to
control technologies or techniques that
can be integrated into an individual
source’s design or operation (i.e., add-on
controls and lower-emitting processes/
practices/designs) is the only
interpretation compatible with the
fundamental principle, reflected in the
original competing drafts of the
provision, that sources should be
56 Id. (describing the approach under the Senate
amendment).
57 S. Rep. No. 91–1196, 15–16 (September 17,
1970) (emphasis added).
58 Id. at 17.
59 Id. at 18–19.
60 Id. at 19.
61 References to ‘‘other alternatives,’’ ‘‘other
means,’’ or ‘‘other methods’’ in the Senate bill and
accompanying report are not evidence that Congress
intended to confer boundless discretion. In fact,
these terms must be interpreted in light of the other
specifically listed control techniques. For example,
the Senate bill’s reference to ‘‘control technology,’’
‘‘processes,’’ and ‘‘operating methods’’ are properly
read to denote measures that can be applied to
individual sources—and ‘‘other alternatives’’ must
be interpreted ejusdem generis: in the same fashion.
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designed, built, equipped, operated, and
maintained to reduce emissions.62
d. The CPP Unlawfully Exceeds the
Scope of CAA Section 111(a)(1) and
Must Be Repealed
Before the CPP, the EPA had issued
only six CAA section 111(d)
rulemakings, in the form of a ‘‘guideline
document’’ with corresponding
‘‘emission guidelines.’’ 63 Conversely,
the EPA has issued around seventy CAA
section 111(b) rulemakings, including
several for new fossil-fuel-fired steamgenerating units.64 Every one of those
rulemakings applied technologies,
techniques, processes, practices, or
design modifications directly to
individual sources.
In the CPP, the EPA determined that
the BSER for reducing CO2 emissions
from existing fossil fuel-fired power
62 To be sure, the Agency does not contend that
a ‘‘system of emission reduction’’ is limited to
technological improvements. Indeed, the CAA
Amendments of 1990 make clear that CAA section
111 is not to be limited to ‘‘technological systems.’’
See supra n. 51 (discussing amendments to CAA
section 111(a)(1)). But that does not mean CAA
section 111 therefore authorizes basing BSER on
generation shifting ‘‘measures,’’ such as substitute
generation from lower- or non-polluting power
plants, which cannot be applied to individual
sources like add-on controls or inherently loweremitting processes/practices/designs.
63 (See 1) Phosphate Fertilizer Plants, Final
Guideline Document Availability, 42 FR 12022
(March. 1, 1977) [Final Guideline Document:
Control of Fluoride Emissions from Existing
Phosphate Fertilizer Plants, March 1977, Doc. No.
EPA–450/2–77–005]; 2) Emission Guideline for
Sulfuric Acid Mist, 42 FR 55796 (October 18, 1977);
3) Kraft Pulp Mills; Final Guideline Document;
Availability, 44 FR 29828 (May 22, 1979) [Kraft
Pulping, ‘‘Control of Emissions from Existing
Mills,’’ March 1979, Doc. No. EPA–450/2–78–003b];
4) Primary Aluminum Plants; Availability of Final
Guideline Document, 45 FR 26294 (Apr. 17, 1980)
[Primary Aluminum: Guidelines for Control of
Fluoride Emissions from Existing Primary
Aluminum Plants, December 1979, Doc. No. EPA–
450/2–78–049b]; 5) Standards of Performance for
New Stationary Sources and Guidelines for Control
of Existing Sources: Municipal Solid Waste
Landfills, 61 FR 9905 (March 12, 1996); and 6)
Standards of Performance for New and Existing
Stationary Sources: Electric Utility Steam
Generating Units, 70 FR 28606 (May 18, 2005)
(hereafter, the Clean Air Mercury Rule or CAMR)
(vacated in New Jersey v. EPA, 517 F.3d 574 (D.C.
Cir. 2007) (reviewing an action that sought to shift
regulation of certain emissions from power plants
from the CAA section 112 hazardous air pollutants
regime to the section 111 standards regime and
holding that the EPA failed to comply with the
delisting requirements of section 112(c)(9) and thus
vacating the corresponding section 111 standards
for electric utility steam generating units). This list
of six CAA section 111(d) rulemakings does not
include any guideline documents mandated by and
carried out in compliance with CAA section 129
(governing solid waste incinerator units).
64 See generally 40 CFR part 60, subparts D–
TTTT. In fact, steam-generating units were among
the first sources regulated under section 111(b). See
36 FR 24876 (December 23, 1971) (promulgating
standards for steam generators, portland cement
plants, incinerators, nitric acid plants, and sulfuric
acid plants).
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plants was the combination of three
‘‘building blocks’’:
1. Improving heat rate at individual
affected coal-fired steam generating
units;
2. Substituting increased generation
from lower-emitting existing natural gas
combined cycle units for decreased
generation from higher-emitting affected
steam generating units; and
3. Substituting increased generation
from new zero-emitting renewable
energy generating capacity for decreased
generation from affected fossil fuel-fired
generating units.
This was the first time the EPA
interpreted the BSER to authorize
measures wholly outside a particular
source.65 The EPA reached this
determination by interpreting the
statutory term ‘‘application’’ as if it
instead read ‘‘implementation’’ (without
pointing to any legal basis for equating
those terms), and interpreting the phrase
‘‘system of emission reduction’’ broadly
as ‘‘a set of measures that work together
to reduce emissions and that are
implementable by the sources
themselves.’’ 66 ‘‘As a practical matter,’’
the Agency continued, ‘‘the ‘source’
includes the ‘owner or operator’ of any
building, structure, facility, or
installation for which a standard of
performance is applicable.’’ 67 The EPA
then concluded that the breadth of a
dictionary definition of the word
‘‘system’’ established the bounds of its
statutory authority, finding that the
phrase ‘‘ ‘system of emission reduction’
. . . means a set of measures that source
owners or operators can implement to
65 CAMR, which relied in part on a cap-and-trade
mechanism, was still ultimately ‘‘based on control
technology available in the relevant timeframe,’’ an
approach fundamentally different than the CPP’s
second and third ‘‘building blocks,’’ which were not
based on systems that could be applied to or at
individual sources. Indeed, the rule explained that
the BSER refers to ‘‘the combination of the cap-andtrade mechanism and the technology needed to
achieve the chosen cap level.’’ 70 FR 28620
(emphasis added). Accordingly, the Agency
concluded that it would be ‘‘reasonable to establish
a cap on [the basis of using a particular technology]
and require compliance with that cap at a later
point in time when the necessary technology
becomes widely available.’’ Id. To the extent that
CAMR’s BSER (i.e., the combined control
technology and cap-and-trade program) is premised
on application to the source category (as opposed
to an individual source), however, CAMR would be
unlawful. Trading as a compliance mechanism
under CAA section 111 is discussed in section
III.F.2.a of this preamble.
66 80 FR 64762 (citing the Oxford Dictionary of
English (3rd ed.) (2010), among others). The EPA
reached this interpretation in part on the
assumption that ‘‘the terms ‘implement’ and ‘apply’
are used interchangeably.’’ See Legal Memorandum
Accompanying Clean Power Plan for Certain Issues
at 84 n.175.
67 80 FR 64762.
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achieve an emission limitation
applicable to their existing source.’’ 68
In reviewing the CPP, the EPA
concludes that the interpretation relied
upon in the CPP ignored or
misinterpreted critical statutory
elements and rules of statutory
construction. After reconsidering the
relevant statutory text, structure, and
purpose, the Agency now recognizes
that Congress ‘‘spoke to the precise
question’’ of the scope of CAA section
111(a)(1) and clearly precluded the
unsupportable reading of that provision
asserted in the CPP. Accordingly, this
action repeals the CPP.69
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(1) The CPP Is Impermissibly Based on
‘‘Implementation’’ Rather Than
‘‘Application’’ of the BSER
CAA section 111(a)(1) provides that
standards of performance reflect an
emission limitation achievable ‘‘through
the application of the [BSER] . . . .’’ In
the Legal Memorandum accompanying
the CPP, the Agency stated in a footnote
that ‘‘the terms ‘implement’ and ‘apply’
are used interchangeably.’’ 70 Thus, the
Agency decided, ‘‘the system must be
limited to measures that can be
implemented—‘‘appl[ied]’’—by the
sources themselves . . . .’’ 71 But
Congress does not in fact use these
terms interchangeably in the Act, and in
CAA section 111(a)(1), as in other
source-focused standard-setting
68 Id. The EPA acknowledged, nonetheless, that
‘‘regulatory requirements’’ in the CPP would be
based ‘‘on measures the affected EGUs can
implement to assure that electricity is generated
with lower emissions’’ and that ‘‘do not require
reductions in the total amount of electricity
produced.’’ Id. at 64778. But the EPA did not
exclude such ‘‘measures’’ (i.e., reduced utilization
and demand-side energy efficiency) as being
outside the scope of the dictionary definition of
‘‘system.’’ Indeed, the EPA believed they would
play an important compliance role under the CPP.
See id. at 64753–657 (discussing reduced utilization
and demand-side energy efficiency measures under
rate-based and mass-based state plans). See also n.
83, infra.
69 One commenter asserted that, rather than
repeal the CPP, the EPA should retain building
block 1. As explained in the Proposed Repeal,
however, while heat rate improvement measures
may be considered in a CAA section 111 standard,
‘‘building block 1, as analyzed, cannot stand on its
own. 80 FR 64758 n. 444; see also id. at 64658
(discussing severability of the building blocks).’’ 82
FR 48039 n.5. Accordingly, today’s action repeals
the whole of the CPP and does not retain building
block 1 as the BSER. In any case, as discussed in
the ACE proposal, ‘‘building block 1, as constructed
in [the] CPP, does not represent an appropriate
BSER, and ACE better reflects important changes in
the formulation and application of the BSER in
accordance with the CAA.’’ 83 FR 44756
(discussing the EPA’s change in approach to
analyzing heat rate improvement measures). See
section III for the EPA’s evaluation of heat rate
improvement measures under ACE.
70 Legal Memorandum Accompanying Clean
Power Plan for Certain Issues at 84 n.175.
71 80 FR 64720.
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provisions in the Act, used a term
(‘‘application’’) meaningfully different
than the one CPP read into that section
(‘‘implementation’’)—and the term that
Congress actually used is one that
reflects the CAA’s other source-focused
standard-setting provisions.72
The Act is replete with provisions
calling for the ‘‘implementation’’ of ‘‘a
system,’’ 73 ‘‘control measures,’’ 74
‘‘emission reduction measures,’’ 75 and
even ‘‘steps, by owners or operators of
stationary sources,’’ 76 but CAA section
111(a)(1) is not among them. Congress
defines ‘‘implementing’’ under CAA
section 105(a)(1)(A) as ‘‘any activity
related to the planning, developing,
establishing, carrying-out, improving, or
maintaining of such programs [for the
prevention and control of air pollution
or implementation of national primary
and secondary ambient air quality
standards].’’ 77 But again, ‘‘applying’’ is
not included in this list defining
‘‘implementing.’’ In the case of the Act’s
standard-setting provisions, on the other
hand, BACT and maximum achievable
control technology (MACT)
requirements—like CAA section 111—
are based on ‘‘application of’’ control
measures to individual sources.
Functionally, the two terms send
different signals. ‘‘Implementation’’
requires a subject and direct object (I
implement the plan), whereas
‘‘application’’ requires a subject, direct
object, and indirect object (I apply the
protocol to the subject). That is, an
owner or operator can implement a
72 See, e.g., 42 U.S.C. 7412(d)(2) (describing
MACT as ‘‘through application of measures,
processes, methods, systems or techniques
including, but not limited to, measures which—(A)
reduce the volume of, or eliminate emissions of,
such pollutants through process changes,
substitution of materials or other modifications, (B)
enclose systems or processes to eliminate
emissions, (C) collect, capture or treat such
pollutants when released from a process, stack,
storage or fugitive emissions point, (D) are design,
equipment, work practice, or operational standards
. . . , or (E) are a combination of the above;’’); id.
at 7479(3) (describing BACT as ‘‘achievable for such
facility through application of production processes
and available methods, systems, and techniques,
including fuel cleaning, clean fuels, or treatment or
innovative fuel combustion techniques for
control’’).
73 42 U.S.C. 7412(r)(7)(H)(vii) (‘‘the Administrator
. . . shall develop and implement a system for
providing off-site consequence analysis
information’’).
74 Id. 7511a(b)(2) (‘‘Such plan provisions shall
provide for the implementation of all reasonably
available control measures’’).
75 Id. 7412(i)(5)(C) (‘‘prior to implementation of
emissions reduction measures’’).
76 Id. 7410(a)(2)(F) (emphasis added) (‘‘require, as
may be prescribed by the Administrator—(i) the
installation, maintenance, and replacement of
equipment, and the implementation of other
necessary steps, by owners or operators of
stationary sources’’).
77 42 U.S.C. 7405(a)(1)(A).
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system (without anything more and
without any particular object of the
system being implied), but an owner/
operator must apply a system to another
object (i.e., the source). CAA section 111
illustrates this distinction. Congress
provided, in CAA section 111(d)(1), that
state plans must provide ‘‘for the
implementation and enforcement of
such standards of performance,’’ but
that EPA’s regulations must also permit
a state ‘‘in applying a standard of
performance to any particular source’’ to
take into consideration, among other
factors, the remaining useful life of the
existing source to which such standard
applies. Thus, whereas state plans more
broadly ‘‘implement’’ the CAA section
111(d) program, states ‘‘appl[y]’’
standards to individual sources.
Congress could have defined a standard
of performance as reflecting the
‘‘implementation of the BSER by the
owner or operator of a stationary
source,’’ but Congress did not. Simply
put, equating the terms ‘‘implement’’
and ‘‘apply’’ conflicts with the plain
language of CAA section 111(a)(1) and
their use throughout the Act; this
conflict is compounded by the
conflation of the source with its owner,
different concepts that are separately
defined, see CAA section 111(a)(3), (5).
Now take generation shifting, the
basis for the second and third ‘‘building
blocks’’ of the CPP’s BSER. The CPP
recognized that an owner or operator of
a regulated source can ‘‘shift’’ powerproducing operations to a different
facility, such as a nuclear power plant,
through bilateral contracts for capacity
or by reducing utilization. But just
because generation shifting is
‘‘implementable’’ by an owner or
operator (i.e., just because an owner or
operator of a given source can subsidize
generation elsewhere that will reduce
demand for generation from that) does
not mean that generation shifting can be
‘‘applied’’ to the source.78 And indeed,
the CPP shifted generation from one
regulated source category to another and
from both those regulated source
categories together to other forms of
electricity generation outside any
regulated source category. Because the
CPP is premised on ‘‘implementation of
the BSER by a source’s owner or
operator’’ and not ‘‘application of the
[BSER]’’ to an individual source, the
rule contravenes the plain language of
CAA section 111(a)(1) and must be
repealed.
78 A contract, for example, is neither a ‘‘system’’
nor ‘‘applied to’’ a source.
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(2) Dictionary Definitions Cannot Confer
an ‘‘Infinitude’’ of Possibilities
Although the word ‘‘system’’ is not
defined in the CAA, ‘‘[t]he meaning—or
ambiguity—of certain words or phrases
may only become evident when placed
in context.’’ 79 Thus, the issue is not
whether the dictionary provides a broad
definition of the word ‘‘system,’’ but
what are the permissible bounds of the
legal meaning of the word ‘‘system.’’
The precise question in this case is
whether the word ‘‘system’’ as used in
CAA section 111 encompasses any ‘‘set
of measures’’ 80 to reduce emissions, or
whether it is limited to lower-emitting
processes, practices, designs, and addon controls that are applied at the level
of the individual facility.
‘‘System,’’ as used in CAA section
111, cannot be read to encompass any
‘‘set of measures’’ that would—through
some chain of causation—lead to a
reduction in emissions. As an initial
matter, Congress did not use the phrase
‘‘set of measures’’ in CAA section 111.
On its own, this phrase could create
unbounded discretion in the Agency.
Moreover, even when the term
‘‘measures’’ is used elsewhere in the
Act, it is intended to be limited. For
example, CAA section 112 emission
standards are derived ‘‘through
application of measures, processes,
methods, systems or techniques.’’
‘‘Measures,’’ are further defined to
include measures which:
• Reduce the volume of, or eliminate
emissions of, such pollutants through
process changes, substitution of
materials or other modifications,
• enclose systems or processes to
eliminate emissions,
• collect, capture or treat such
pollutants when released from a
process, stack, storage or fugitive
emissions point,
• are design, equipment, work
practice, or operational standards
(including requirements for operator
training or certification) as provided in
subsection (h) of CAA section 111, or
• are a combination of the above.81
‘‘Measures,’’ as Congress provides, are
limited to control measures that can be
integrated into an individual source’s
design or operation. ‘‘Measures’’ do not
include shifting production away from
the regulated source. The CPP read
‘‘system’’ in CAA section 111(a)(1) to
mean any ‘‘set of measures,’’ relying on
the dictionary, and then determined that
there was no limitation on those ‘‘set of
79 King
v. Burwell, 135 S. Ct. 2480, 2489 (2015)
(quoting FDA v. Brown & Williamson Corp., 529
U.S. 120, 132 (2000)).
80 80 FR 64762.
81 42 U.S.C. 7412(d)(2).
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measures’’ so long as they were
measures that could be implemented
through obligations placed on the owner
or operator of a source.82 At both steps,
the CPP relied on an absence of an
express textual commandment
forbidding these open-ended
interpretations. That methodology is
untenable.
Construing ‘‘system’’ to offer such an
‘‘infinitude’’ 83 of possibilities would
have significant implications. The fact
is, fossil fuel-fired EGUs operate within
an interconnected ‘‘system.’’ Thus, any
action that would affect electricity rates
will have generation-shifting and
potentially emission-reduction
consequences. By the very nature of the
interconnected grid, EPA’s authority to
determine the BSER under CAA section
111 is, under the Agency’s prior
interpretation, stretched to every aspect
of the entire power sector. This cannot
have been the intent of the Congress that
enacted CAA section 111.
The D.C. Circuit has previously
disapproved of a federal agency’s
expansive reading of its authority in
analogous circumstances. In Cal ISO,
the D.C. Circuit vacated the Federal
Energy Regulatory Commission’s
(‘‘FERC’’) attempt to reform a utility’s
governing structure on the theory that
FERC’s statutory authority over
‘‘practice[s] . . . affecting [a] rate’’ gave
FERC ‘‘authority to regulate anything
done by or connected with a regulated
utility, as any act or aspect of such an
entity’s corporate existence could affect,
in some sense, the rates.’’ 84
Upholding FERC’s interpretation of
‘‘practice’’ to include replacing the
governing board of California’s
Independent System Operator
Corporation, the Court warned, could
authorize FERC to ‘‘dictate the choice of
CEO, COO, and the method of
contracting for services, labor, office
space, or whatever one might imagine
. . . .’’ 85 But where ‘‘the text and
reasonable inferences from it give a
clear answer . . . that . . . is ‘the end
of the matter.’ ’’ 86 There is no need,
therefore, to consider ‘‘such parade of
horribles.’’ 87
82 The CPP identified purported limitations to the
underlying legal interpretation (e.g., ‘‘system’’ does
not extend to measures that directly target
consumer behavior), see 80 FR 64776–779, but
those purported limitations still led to an
interpretation that far exceeded the bounds of the
authority actually conferred by Congress on the
EPA.
83 See Cal. Indep. Sys. Operator Corp. v. FERC,
372 F.3d 395, 401 (D.C. Cir. 2004) (‘‘Cal ISO’’).
84 Id.
85 Id. at 403.
86 Id. at 401 (citing Brown v. Gardiner, 513 U.S.
115, 120 (1994)) (emphasis in original).
87 Id. at 403.
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The Court explained that, ‘‘no matter
how important the principle of ISO
independence is to the Commission,
‘[the FERC Order] is merely a
regulation,’ and cannot be the basis to
override the limitations of ‘statutes
enacted by both houses of Congress and
signed into law by the president.’’ 88 The
court reasoned that both ‘‘the history of
the application of this and similar
statutes and by the implications of
FERC’s amorphous defining of the term’’
firmly barred FERC’s attempt to stretch
its authority.89 On this point, Congress’s
intent is ‘‘crystal clear’’—FERC had no
authority to ‘‘reform and regulate the
governing body of a public utility under
the theory that corporate governance
constitutes a ‘practice’ for ratemaking
authority purposes.’’ 90
The EPA’s prior interpretation
underlying the CPP is untenable for the
same reasons. The EPA began, like
FERC, with an ordinary statutory term
(‘‘system’’) and then read into it
maximally broad authority to shift
generation away from coal-fired and gasfired power plants to other electricity
producers on the basis that generation
shifting would cause those regulated
sources to be displaced and therefore
not be a source of emissions. But for
nearly 45 years prior to the CPP, this
Agency had never understood CAA
section 111 to confer upon it the
implicit power to restructure the utility
industry through generation-shifting
measures. Indeed, the EPA has issued
many rules under CAA section 111
(both the limited set of existing-source
rules under CAA section 111(d) and the
much larger set of new-source rules
under CAA section 111(b)). In all those
rules, the EPA determined that the
BSER consisted of add-on controls or
lower-emitting processes/practices/
designs that can be applied to
individual sources.91
The CPP deviated from this settled
understanding of CAA section 111. By
embracing an expansive dictionary
definition of ‘‘system,’’ 92 the EPA
ignored that the text and structure of the
Act expressly limited the scope of the
term ‘‘system’’ in a way that foreclosed
the CPP’s expansive definition. The
Agency concluded that actions that
would cause generation to shift from
higher-emitting to lower- or non88 Id.
89 Id.
at 404.
at 402.
90 Id.
91 See
supra n. 66 (discussing CAMR).
FR at 64720 (defined by the Oxford
Dictionary of English as ‘‘a set of things or parts
forming a complex whole; a set of principles or
procedures according to which something is done;
an organized scheme or method; and a group of
interacting, interrelated, or independent elements’’).
92 80
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emitting power generators represent a
means of reducing CO2 emissions from
existing fossil fuel-fired electric
generating units—and thus constituted a
‘‘system’’ within the meaning of CAA
section 111. Taken to its logical end,
however, any action affecting a
generator’s operating costs could impact
its order of dispatch and lead to
generation shifting. This could include,
for example, minimum wage
requirements or production caps. It is
axiomatic that ‘‘Congress . . . does not
alter the fundamental details of a
regulatory scheme in vague terms or
ancillary provisions—it does not, one
might say, hide elephants in
mouseholes.’’ 93 Because Congress
clearly did not authorize CAA section
111 standards to be based on any ‘‘set
of measures,’’ the EPA need not address
the potential consequences of deviating
from our historical practice under CAA
section 111 when determining whether
the CPP’s interpretation was a
permissible reading of the statute. Like
the D.C. Circuit in Cal ISO, the EPA
concludes that the text and reasonable
inferences from it give a clear answer:
‘‘system’’ does not embody any
conceivable ‘‘set of measures’’ that
might lead to a reduction in emissions,
but is limited to measures that can be
applied to and at the level of the
individual source
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(3) Basing BSER on Generation Shifting
Is Not Authorized by Congress
On the question of whether basing
BSER on generation shifting is
precluded by the statute, the major
question doctrine instructs that an
agency may issue a major rule only if
Congress has clearly authorized the
agency to do so. As the Supreme Court
has stated, ‘‘We expect Congress to
speak clearly if it wishes to assign to an
agency decisions of vast ‘economic and
political significance.’ ’’ 94 Although the
Court has not articulated a bright-line
test, its cases indicate that a number of
factors are relevant in distinguishing
major rules from ordinary rules: ‘‘the
93 Whitman v. American Trucking, 531 US 457,
466 (2001). See also Letter from Neil Chatterjee,
Chairman, Fed. Energy Reg. Comm’n, to Andrew
Wheeler, Administrator, EPA at 5 (Oct. 31, 2018)
(Docket ID# EPA–HQ–OAR–2017–0355–24053)
(‘‘The Supreme Court has explained several times
that Congress ‘does not alter the fundamental
details of a regulatory scheme in vague terms or
ancillary provisions—it does not, one might say,
hide elephants in mouseholes.’ The challenges
posed by global climate change present ‘question[s]
of deep ‘economic and political significance’ that
[are] central to [the] statutory scheme[s]’
administered by both the Agency and the
Commission.’’) (internal citation omitted).
94 Utility Air Regulatory Group v. EPA, 573 U.S.
302, 324 (2014) (quoting Brown & Williamson, 529
U.S. at 159).
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amount of money involved for regulated
and affected parties, the overall impact
on the economy, the number of people
affected, and the degree of congressional
and public attention to the issue.’’ 95
While the EPA believes that today’s
action is based on the only permissible
reading of the statute and would reach
that conclusion even without
consideration of the major question
doctrine, the EPA believes that that
doctrine should apply here and that its
application confirms the unambiguously
expressed intent of CAA section 111.
The CPP is a major rule. At the time the
CPP was promulgated, its generationshifting scheme was projected to have
billions of dollars of impact on
regulated parties and the economy,
would have affected every electricity
customer (i.e., all Americans), was
subject to litigation involving almost
every State in the Union, and, as
discussed in the following section,
would have disturbed the state-federal
and intra-federal jurisdictional scheme.
Building blocks 2 and 3 are far afield
from the core activity of CAA section
111—indeed, no section 111 rule of the
scores issued has ever been based on
generation shifting since the enactment
of CAA section 111 in 1970. Because the
CPP is a major rule, the interpretative
question raised in CAA section 111(a)(1)
(i.e., whether a ‘‘system of emission
reduction’’ can consist of generationshifting measures) must be supported by
a clear-statement from Congress.96 As
explained above, however, it is not—
indeed, Congress has directly spoken to
this precise question and precluded the
interpretation of CAA section 111
advanced by the EPA in the CPP.
Further evidence comes from the
notable absence of a valid limiting
principle to basing a CAA section 111
rule on generation shifting. In the CPP,
the EPA explained that the Agency ‘‘has
generally taken the approach of basing
regulatory requirements on controls and
measures designed to reduce air
pollutants from the production process
without limiting the aggregate amount
of production.’’ 97 But by shifting focus
to the entire grid (which includes
regulated sources and non-sources), the
Agency could empower itself to order
the wholesale restructuring of any
industrial sector (whether or not it has
authority to even regulate all the actors
within that sector—so long, in keeping
95 U.S. Telecom Ass’n v. FCC, 855 F.3d 381, 422–
23 (D.C. Cir. 2017) (internal citations omitted).
96 The EPA acknowledges that for the reasons
noted above, its position on this major rule issue
has evolved since the EPA addressed it in the CPP,
80 FR 64,783. See FCC v. Fox Television Stations,
Inc., 556 U.S. 502 (2009).
97 80 FR 64762.
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32529
with the interpretation underlying the
CPP, as it can place obligations on the
owners and operators over whom it does
have authority to carry out a ‘‘system’’
that goes beyond the EPA’s actual direct
reach). Appealing to such factors as
‘‘cost’’ and ‘‘feasibility’’ 98 as putative
constraints on EPA’s authority,
furthermore, does not provide any
assurance—indeed, the D.C. Circuit
traditionally ‘‘grant[s] the [A]gency a
great degree of discretion in balancing
them.’’ 99 Thus, it is not reasonable to
find in this statutory scheme
Congressional intent to endow the
Agency with discretion of this breadth
to regulate a fundamental sector of the
economy.
As a final point, the CPP not only
advanced a broad reading of CAA
section 111(a)(1), the rule applied that
interpretation to ‘‘the source category as
a whole’’ 100 to cause a reduction in
coal-fired generation.101 To do so, the
CPP relied on ‘‘emission reduction
approaches that focus on the machine as
a whole—that is, the overall source
category—by shifting generation from
dirtier to cleaner sources in addition to
emission reduction approaches that
focus on improving the emission rates of
individual sources.’’ 102 Consequently, it
was designed as ‘‘an emission guideline
for an entire category of existing sources
. . . .’’ 103 However, by acting as a
guideline for an entire category, the CPP
ignored the statutory directive to
establish standards for sources and
overextended federal authority into
matters traditionally reserved for states:
‘‘administration of integrated resource
planning and . . . utility generation and
resource portfolios.’’ 104
(4) Basing BSER on Generation Shifting
Encroaches on FERC and State
Authorities
The Federal Power Act (FPA)
establishes the dichotomy between
federal and state regulation in the
electricity sector by drawing ‘‘a bright
line easily ascertained, between state
and federal jurisdiction.’’ 105 The
Supreme Court recently observed that,
under the FPA, FERC has ‘‘exclusive
jurisdiction over wholesale sales of
electricity in the interstate market’’ and
98 See Legal Memorandum Accompanying Clean
Power Plan for Certain Issues at 117–20.
99 Lignite Energy Council v. EPA, 198 F.3d 930,
933 (D.C. Cir. 1999).
100 80 FR 64727.
101 Id. at 64665.
102 80 FR 64725–726; see also id. at 64726 (noting
‘‘consideration of emission reduction measures at
the source-category level’’).
103 CPP RTC Chapter 1A, 170–72.
104 New York v. FERC, 535 US 1, 24 (2002).
105 Fed. Power Comm’n v. S. Cal. Edison Co., 376
U.S. 205, 215 (1964).
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establishing the associated just and
reasonable rates and charges.106
However, ‘‘the law places beyond FERC
and leaves to the States alone, the
regulation of ‘any other sale’—most
notably, any retail sale—of
electricity.’’ 107 Therefore, under the
FPA, Congress limited the jurisdiction
of FERC ‘‘to those matters which are not
subject to regulation by the States,’’
including ‘‘over facilities used for the
generation of electric energy.’’ 108
Indeed, ‘‘the States retain their
traditional responsibility in the field of
regulating electrical utilities for
determining questions of need,
reliability, cost, and other related state
concerns.’’ 109 ‘‘Such responsibilities
include ‘‘authority over the need for
additional generating capacity [and] the
type of generating facilities to be
licensed.’’ 110 Thus, the FPA ‘‘not only
establishes an affirmative grant of
authority to the federal government to
regulate wholesale sales and
transmission of electricity in interstate
commerce, but also draws a line where
that exclusive authority ends and the
state’s exclusive authority to regulate
other matters . . . begins.’’ 111
Courts have observed that regulation
of other areas may incidentally affect
areas within these exclusive domains,
but there is no room for direct
regulation by States in areas of FERC
106 Hughes v. Talen Energy Marketing, LLC, 136
S.Ct. 1288, 1291–92 (2016) (citing 16 U.S.C.
824(b)(1), 824d(a) and 824e(a)).
107 Id. at 1292 (quoting FERC v. Electric Power
Supply Assn., 136 S.Ct. 760, 766 (2016) (EPSA)
(quoting 824(b)). The States’ reserved authority
includes control over in-state ‘‘facilities used for the
generation of electric energy.’’ 824(b)(1); see Pacific
Gas & Elec. Co. v. State Energy Resources
Conservation and Development Comm’n, 461 U.S.
190, 205 (1983) (‘‘Need for new power facilities,
their economic feasibility, and rates and services,
are areas that have been characteristically governed
by the States.’’).
108 16 U.S.C. 824(a), 824(b)(1); see also id.
824o(i)(2) (‘‘This section does not authorize . . .
[FERC] to order the construction of additional
generation or transmission capacity’’). There are
other jurisdictional limitations under the FPA. For
example, publicly-owned and many cooperatively
owned utilities are subject to only some elements
of the FPA. Id. 824(f), 824(b)(2). And entities not
operating in interstate commerce, i.e., entities in
Alaska, Hawaii, and the Electric Reliability Council
of Texas portion of Texas, are also subject to only
limited FERC jurisdiction.
109 Pacific Gas & Elec. Co. v. State Energy
Resources Conservation and Development Comm’n,
461 U.S. 190, 205 (1983).
110 Id. at 212.
111 Dennis, Jeffrey S., et al., Federal/State
Jurisdictional Split: Implications for Emerging
Electricity Technologies, 3 (December 2016),
available at https://www.energy.gov/sites/prod/
files/2017/01/f34/Federal%20State
%20Jurisdictional%20Split-Implications%20for
%20Emerging%20Electricity%20Technologies.pdf;
see also 16 U.S.C. 824o(i)(2) (‘‘This section does not
authorize . . . [FERC] to order the construction of
additional generation or transmission capacity’’).
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domain or vice-versa, and such
regulation that would achieve indirectly
what could not be done directly is also
prohibited.112 Just as ‘‘FERC has no
authority to direct or encourage
generation’’ 113 absent clear authority
from Congress, neither does (indeed, a
fortiori so much the less does) the
EPA.114 The EPA has no more ability to
‘‘do indirectly what it could not do
directly’’ than FERC would with respect
to matters that the FPA left to the states.
Historically, any traditional
environmental regulation of the power
sector may have incidentally affected
these domains without indirectly or
directly regulating within them. For
example, an on-site control, such as a
scrubber, may affect rate determinations
as it is factored into potentially
recovered costs. The CPP, however,
included a BSER that was based largely
on measures and subjects exclusively
left to FERC and the states, rather than
inflicting only permissible, incidental
effects on those domains.
The CPP identified as part of the
BSER generation-shifting measures.
Increased renewable generation
capacity, building block 3, falls within
a state’s authority to determine its
generation mix and to direct the
planning and resource decisions of
utilities under its jurisdiction.115
Additionally, increased utilization of
natural gas combined cycle (NGCC)
plants, building block 2, falls within
that state authority and within FERC’s
authority to determine just and
reasonable rates by requiring a
conclusion that the associated costs of
increased utilization rates are
reasonable, and, further ignores these
areas of exclusive regulation by
neglecting to consider changes to
regional transmission organization
(RTO) and ISO dispatch procedures
necessary to achieve the increased
utilization rates. By including
112 Hughes, 136 S. Ct. at 1297–98. See also EPSA,
753 F.3d at 221, 224 (‘‘the Federal Power Act
unambiguously restricts FERC from regulating the
retail market’’ and quoting Altamont Gas
Transmission Co. v. FERC, 92 F.3d 1239, 1248 (D.C.
Cir. 1996)) (noting that ‘‘FERC cannot ‘do indirectly
what it could not do directly’ ’’).
113 CRS, The Federal Power Act (FPA) and
Electricity Markets, 9 (March 10, 2017), available at
https://www.everycrsreport.com/files/20170310_
R44783_dd3f5c7c0c852b78f3ea62166ac5ebdbd
1586e12.pdf.
114 See 80 FR 64745 (explaining that ‘‘the BSER
also reflects other CO2 reduction strategies that
encourage increases in generation from lower- or
zero-carbon EGUs’’) (emphasis added); cf. 42 U.S.C.
7651(b) (providing that one purpose of Title IV (but
not the CAA overall) is to encourage the ‘‘use of
renewable and clean alternative technologies’’).
115 See S.Cal. Edison Co., 71 FERC 61,269 (June
2, 1995); see also Pacific Gas & Elec. Co. v. State
Energy Resources Conservation and Development
Comm’n, 461 U.S. 190, 205, 212 (1983).
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generation-shifting measures within the
states’ and FERC’s purview in the BSER,
rather than relying on traditional
controls within the EPA’s purview, the
EPA established a rule predicated
largely upon actions in the power sector
outside of the scope of the Agency’s
authority to compel. Some generation
shifting may be an incidental effect of
implementing a properly established
BSER (e.g., due to higher operation
costs), but basing the BSER itself on
generation shifting improperly
encroaches on FERC and state
authorities.
Further, the actual effect of the CPP as
anticipated by the EPA was that the
states would impose standards of
performance based on the EPA’s BSER,
and sources would largely rely on
generation-shifting measures to comply
with those standards. In its analysis of
potential energy impacts associated
with the rule, the CPP modeling
‘‘presume[d] policies that lead to
generation shifts and growing use of
demand-side [energy efficiency] and
renewable electricity generation out to
2029.’’ 116 In this manner, the CPP could
directly shape the generation mix of a
complying state. It is clear from the FPA
that Congress intended the states to
have that authority, not the relevant
federal agency, FERC. Given that even
FERC would not have such authority,
the only reasonable inference is that
Congress did not intend to give the EPA
that authority via CAA section 111.117
Federal law ‘‘may not be interpreted to
reach into areas of state sovereignty
unless the language of the federal law
compels the intrusion,’’ 118 and, as
discussed above, basing BSER on
generation shifting is not authorized by
Congress here. Such an interpretation is
also consistent with the cooperativefederalism framework of the CAA.119
While the EPA has previously asserted
that the CPP only provides emissions
guidelines, leaving the states with the
flexibility to create their own
compliance measures,120 the guidelines
are based on actions outside of the
EPA’s authority to directly or indirectly
compel and the practical effect of
116 80
FR 64927.
Solid Waste Agency of Northern Cook
County v. U.S. Army Corps of Engineers, 531 U.S.
159, 172 (2001) (citing Edward J. DeBartolo Corp.
v. Florida Gulf Coast Building & Constr. Trades
Council, 485 U.S. 568, 575 (1988)).
118 Am. Bar Ass’n v. FTC, 430 F.3d 457 (D.C. Cir.
2005).
119 See, e.g., 42 U.S.C. 7401(b)(3) and (4), 7402(a)
and (b), and 7416.
120 80 FR 64762 (‘‘States will have the flexibility
to choose from a range of plan approaches and
measures, including numerous measures beyond
those considered in setting the CO2 emission
performance rates’’).
117 See
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implementing the guidelines is that
many of those actions likely must be
taken.
(5) Commenters’ Attempt To
Recharacterize the BSER in the CPP as
Applying to Sources By Pointing to
‘‘Reduced Utilization’’ Is Unavailing
and Clearly Precluded by the CAA
(a) The CPP Rejected ‘‘Reduced
Utilization’’ as a ‘‘System’’ for Purposes
of CAA Section 111.
Some commenters claim reduced
utilization can be ‘‘applied to’’ a source
as an ‘‘operational method’’ for reducing
emissions. In the CPP, however, the
EPA was clear that reduced utilization
on its own ‘‘does not fit within our
historical and current interpretation of
the BSER.’’ 121 The EPA explained:
‘‘Specifically, reduced generation by
itself is about changing the amount of
product produced rather than producing
the same product with a process that
has fewer emissions,’’ 122 and the EPA
has historically based pollution control
on ‘‘methods that allow the same
amount of production but with a loweremitting process.’’ 123 In proposing to
repeal the CPP, the EPA noted that,
‘‘[w]hereas some emission reduction
measures (such as a scrubber) may have
an incidental impact on a source’s
production levels, reduced utilization is
directly correlated with a source’s
output.’’ 124 Accordingly, ‘‘predicating a
section 111 standard on a source’s nonperformance would inappropriately
inject the Agency into an owner/
operator’s production decisions.’’ 125
The EPA is finalizing our proposal that
reduced utilization cannot be
considered a ‘‘best system of emission
reduction’’ under CAA section 111(a)(1)
because, as the EPA said in the CPP, the
EPA has never identified reduced
utilization as the BSER and the EPA
interprets CAA section 111 to authorize
emission limits based on controls that
reduce emissions without restricting
production. In addition, because the
CPP was not premised on ‘‘reduced
utilization’’—indeed, the EPA expressly
renounced that as a basis for the CPP—
commenters’ attempt to justify the CPP
on that basis is unavailing.
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(b) Standards of Performance Cannot Be
Based on Reduced Utilization
Even if the CPP could be reframed as
employing reduced utilization, it would
fail to satisfy statutory criteria.
121 80
FR 64780.
122 Id.
123 80
124 83
FR 64782 n.602.
FR 44752.
125 Id.
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CAA section 302(l) provides that a
‘‘standard of performance’’ means ‘‘a
requirement of continuous emission
reduction, including any requirement
relating to the operation or maintenance
of a source to assure continuous
reduction.’’ Previously, the Agency has
argued that the definitions in CAA
section 111(a)(1) ‘‘are more specific’’
and therefore controlling,126 but, to the
extent that section 302(l) applies, that
definition is met when a standard
‘‘applies continuously in that the source
is under a continuous obligation to meet
its emission rate . . . .’’ 127
Here, the Agency concludes that CAA
section 302(l) is relevant to interpreting
CAA section 111.128 Statutes should be
construed ‘‘so as to avoid rendering
superfluous’’ any statutory language: ‘‘a
statute should be construed so that
effect is given to all its provisions, so
that no part will be inoperative or
superfluous, void or
insignificant. . . .’’ 129 Under the CAA,
only section 111 requires the
establishment of ‘‘standards of
performance.’’ Thus, ignoring the
generally applicable definition in CAA
section 302(l) in interpreting CAA
section 111 would read it out of the
statute. Nor is this a situation where
Congress provided that the provisionspecific definition in CAA section 111
was to supplant the general definition in
CAA section 302(l). First, the opening
phrase of CAA section 302 indicates
that the section 302 definitions apply
‘‘[w]hen used in this chapter.’’ By
contrast, the definitions provisions in
some statutes begins with text that
expressly provides that the general
statutory definitions are supplanted by
provision-specific definitions. See, e.g.,
Clean Water Act (CWA) section 502 (33
U.S.C. 1362) (which begins ‘‘Except as
otherwise specifically provided
126 See Brief of Respondent at 129–30, New Jersey
v. EPA, No. 05–1097 (consolidated) (D.C. Cir. May
4, 2007).
127 80 FR 64841. See also 70 FR 28617 (‘‘Even if
the 302(l) definition applied to the term ‘standard
of performance’ as used in section 111(d)(1), [the]
EPA believes that a cap-and-trade program meets
the definition. . . . That is, there is never a time
when sources may emit without needing
allowances to cover those emissions.’’).
128 Indeed, the provisions of CAA section 302 are
supplanted by provision-specific definitions only to
the extent that those specific provisions ‘‘expressly’’
do so. See, e.g., Alabama Power v. Costle, 636 F.2d
323, 370 (D.C. Cir. 1979) (holding that CAA section
169(1) is controlled by the general definition in
CAA section 302(j) with respect to the ‘‘rule
requirement’’ in CAA section 302(j) that is not
expressly supplanted by CAA section 169(1)).
129 Hibbs v. Winn, 542 U.S. 88, 101 (2004). Cf.
Brief of Respondent at 129, New Jersey v. EPA
(‘‘[s]pecific terms prevail over the general in the
same or another statute which might otherwise be
controlling.’’ (citation and quotation marks
omitted)).
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. . . .’’). Second, one of the CAA
section 302 definitions expressly states
that it is supplanted by provisionspecific definitions.130
However, the Agency was wrong to
conclude that ‘‘a requirement of
continuous emission reduction’’ means
only that a standard of performance
need apply ‘‘on a continuous basis.’’ In
fact, Congress used such phrasing in the
preceding definition under CAA section
302(k). The terms ‘‘emission limitation’’
and ‘‘emission standard’’ mean ‘‘a
requirement . . . which limits the
quantity, rate, or concentration of
emissions of air pollutants on a
continuous basis, including any
requirement relating to the operation or
maintenance of a source to assure
continuous emission
reduction. . . .’’ 131 Whereas emission
limitations and emission standards
apply ‘‘on a continuous basis, including
any requirement . . . to assure
continuous emission reduction,’’
standards of performance must impose
a ‘‘requirement of continuous emission
reduction.’’
When Congress made explicit the
requirement for ‘‘continuous emission
reduction,’’ it was to ‘‘affirm the
decisions of four U.S. courts of appeals
cases that the [A]ct requires continuous
emission reductions to be applied.’’ 132
Thus, as scholar David Currie observed,
130 See CAA section 302(j) (which defines ‘‘major
stationary source’’ and ‘‘major emitting facility’’ and
begins ‘‘Except as otherwise expressly provided,
. . . .’’).
131 42 U.S.C. 7602(k) (emphasis added). See H.R.
6161, Rep. No. 95–294, 92 (May 12, 1977)
(‘‘Without an enforceable emission limitation which
will be complied with at all times, there can be no
assurance that ambient standards will be attained
and maintained. Any emission limitation under the
[CAA], therefore must be met on a constant
basis. . . .’’) (emphasis added).
132 H.R. Conf. Rep. No. 95–564, 514 (Aug. 3,
1977); see also H.R. No. 95–294, 190 (May 12, 1977)
(‘‘To make clear the committee’s intent that
intermittent or supplemental control measures are
not appropriate technological systems for new
sources (and to prevent the litigation which has
been conducted with respect to use of intermittent
or supplemental systems at existing sources), the
committee adopted language clearly stating that
continuous emission reduction technology would
be required to meet the requirements of this
section.’’); and id. at 92 (‘‘By defining the terms
‘emission limitation,’ ‘emmission [sic] standard,’
and ‘standard of performance,’ the committee has
made clear that constant or continuous means of
reducing emissions must be used to meet these
requirements.’’). For example, ‘‘The Sixth Circuit
has agreed with the Fifth, upholding the EPA’s
rejection of a provision that would have allowed
‘intermittent’ controls when necessary to meet
ambient standards, adding on the basis of a stray
remark of the Supreme Court in Train that
‘emission standards’ were only those limiting the
‘composition’ of an emission, not restrictions on
operation or on the content of fuels.’’ David P.
Currie, Federal Air-Quality Standards and Their
Implementation, 365 American Bar Foundation
Research Journal, 376 n.58 (1976).
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Congress ‘‘intended to forbid reliance on
intermittent control strategies, such as
temporary use of low-sulfur fuels or
reductions in plant output . . . .’’ 133
Because standards of performance
cannot be based on intermittent control
strategies, basing BSER on reduced
utilization is statutorily precluded for
purposes of CAA section 111.
Finally, basing the BSER on reduced
utilization contravenes the plain
meaning of a ‘‘standard of
performance.’’ As the Supreme Court
held most recently in Weyerhaeuser v.
FWS, 139 S. Ct. 361 (2018),134 and
previously in Solid Waste Agency of
Northern Cook County, courts must give
statutory terms meaning, even where
they are part of a larger statutorily
defined phrase.135 In the phrase
‘‘standard of performance,’’ the term
‘‘performance’’ is defined as ‘‘[t]he
accomplishment, execution, carrying
out, . . . [or] doing of any action or
work,’’ 136 and thus refers to the source’s
manufacturing or production of product.
Reduced utilization does not involve
improvements to a source’s emissions
during ‘‘performance;’’ instead it calls
for non-performance—the cessation or
limitation of manufacturing or
production —of a source. Accordingly,
reduced utilization cannot form the
basis of a ‘‘standard of performance’’
under CAA section 111.
The definition of ‘‘standard of
performance,’’ and the scope of the
‘‘best system of emission reduction’’
contained within, confers considerable
discretion on the EPA to interpret the
statute and make reasonable policy
choices pursuant to Chevron step two as
to what is the best system to reduce
emissions of a particular pollutant from
a particular type of source. However, by
making clear that the ‘‘application’’ of
the BSER must be to the source,
133 David P. Currie, Direct Federal Regulation of
Stationary Sources Under the Clean Air Act, 128 U.
Pa. L. Rev. 1389, 1431 (1980) (emphasis added).
Professor Curie also suggests that ‘‘the requirement
of continuous controls . . . may even have been
implicit in the original section 111.’’ Id.
134 139 S.Ct. at 368–69 (rejecting environmental
group’s contention that statutory definition of
‘‘critical habitat’’ is complete and does not require
independent inquiry into meaning of the term
‘‘habitat,’’ which the statute left undefined).
135 531 U.S. at 172 (requiring that the word
‘‘navigable’’ in the Clean Water Act’s statutorily
defined term ‘‘navigable waters’’ be given ‘‘effect’’).
136 The Oxford English Dictionary (2d ed. 1989)
(1. The carrying out of a command, duty, purpose,
promise, etc.; execution, discharge, fulfilment. 2. a.
The accomplishment, execution, carrying out,
working out of anything ordered or undertaken; the
doing of any action or work; working, action
(personal or mechanical’’) and American Heritage
Dictionary of the English Language (2d ed. 1969)
(‘‘1. The act of performing, or the state of being
performed.’’ [perform 1. To begin and carry through
to completion]).
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Congress spoke directly in Chevron step
one terms to the question of whether the
BSER may contain measures other than
those that can be put into operation at
a particular source: It may not. The
approach to BSER in the CPP is thus
unlawful and the CPP must be repealed.
C. Independence of the Repeal of the
Clean Power Plan
Although this action appears in the
same document as the ACE rule and the
revisions to the emission guidelines
implementing regulations, the repeal of
the CPP is a distinct final agency action
that is not contingent upon the
promulgation of ACE or the new
implementing regulations. As explained
above, Congress spoke directly to the
question of whether CAA section 111
authorizes the EPA to issue regulations
pursuant to CAA section 111(d) that call
for the establishment of standards of
performance based on the types of
measures that comprised the second and
third building blocks of the CPP’s BSER
permits the Agency’s to consider
generation-shifting as a potential system
of emission reduction in developing
emission guidelines. The answer to that
question is no.
The CPP described itself as a
‘‘significant step forward in reducing
[GHG] emissions in the U.S.’’ and relied
‘‘in large part on already clearly
emerging growth in clean energy
innovation, development and
deployment . . . .’’ 80 FR 64663.
Market-based forces have already led to
significant generation shifting in the
power sector. However, the fact that
those market forces have had that result
does not confer authority on the EPA
beyond what Congress conferred in the
CAA.
The EPA does not deny that, if it were
validly within the Agency’s authority
under the statute, regulations that can
only be complied with through
widespread implementation of
generation shifting might be a workable
policy for achieving sector-wide carbonintensity reduction goals. But what is
not legal cannot be workable. The CPP’s
reliance on generation shifting as the
basis of the BSER is simply not within
the grant of statutory authority to the
Agency. The text of CAA section 111 is
clear, leaving no interpretive room on
which the EPA could seek deference for
the CPP’s grid-wide management
approach. Accordingly, EPA is obliged
to repeal the CPP to avoid acting
unlawfully.
Because the EPA exceeded its
statutory authority when it promulgated
the CPP, the EPA’s repeal of that rule
will remain valid even if a future
reviewing court were to find fault with
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the separate and distinct legal
interpretations and record-based
findings underpinning the ACE rule (see
Section III) or the new implementing
regulations (see Section IV). The EPA
today repeals the CPP as a separate
action, distinct from its promulgation of
the ACE rule and of revisions to its
regulations implementing section
111(d). The EPA would repeal the CPP
today even if it were not yet prepared
to promulgate these other regulations, or
indeed if it knew that those other
regulations would not survive judicial
review.
III. The Affordable Clean Energy Rule
A. The Affordable Clean Energy Rule
Background
1. Regulatory Background
In December 2017, the EPA published
an Advanced Notice of Proposed Rule
Making (ANPRM) to solicit comment on
what the Agency should include in CAA
section 111(d) emission guidelines,
including soliciting comment on the
respective roles of the states and the
EPA; what systems of emission
reduction might be available and
appropriate for reducing GHG emissions
from existing coal-fired EGUs; and
potential flexibilities that could be
afforded under the NSR program to
improve the implementation of a future
rule.137 The EPA received more than
270,000 comments on the ANPRM.
Informed by the ANPRM, the EPA
then published the ACE proposal,
which consisted of three distinct
actions: (1) Emission guidelines for GHG
emissions from existing coal-fired EGUs,
based on application of HRI measures as
the BSER; (2) new emission guideline
implementation regulations; and (3)
revisions to the NSR program to
facilitate the implementation of
efficiency projects at EGUs.138
In this final action, the EPA has
determined that the BSER for CO2
emissions from existing coal-fired EGUs
is HRI, in the form of a specific set of
technologies and operating and
maintenance practices that can be
applied at and to certain existing coalfired EGUs, which is consistent with the
legal interpretation adopted in the
repeal of the CPP (see above section II).
Also, in this action, the EPA has
provided information for state plan
development. The state plan
development discussion is consistent
with the new implementing regulations
for CAA section 111(d) emission
guidelines discussed separately in
section IV of this preamble.
137 See
138 See
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As noted above, the EPA also
proposed revisions to the NSR program
in parallel with the ACE rule and the
new implementing regulations. The EPA
is not finalizing NSR revisions at this
time; instead, the EPA intends to take
final action on the proposed revisions at
a later date in a separate notification of
final action.
2. Public Comment and Hearing on the
ACE Proposal
The Administrator signed the ACE
proposal on August 21, 2018, and, on
the same day, the EPA made this
version available to the public at https://
www.epa.gov/stationary-sources-airpollution/proposal-affordable-cleanenergy-ace-rule. The 60-day public
comment period on the proposal began
on August 31, 2018, the day of
publication in the Federal Register. The
EPA held a public hearing on October
1, 2018, in Chicago, Illinois, and
extended the public comment period
until October 31, 2018, to allow for 30
days of public comment following the
public hearing. The EPA received nearly
500,000 comments on the ACE proposal.
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B. Legal Authority To Regulate EGUs
In the CPP, the EPA stated that the
Agency’s then-concurrent promulgation
of standards of performance under CAA
section 111(b) regulating CO2 emissions
from new, modified, and reconstructed
EGUs triggered the need to regulate
existing sources under CAA section
111(d).139 In ACE, the EPA is not reopening any issues related to this
conclusion, but for the convenience of
stakeholders and the public, the EPA
summarizes the explanation provided in
the CPP here.
CAA section 111(d)(1) requires the
Agency to promulgate regulations under
which the states must submit state plans
regulating ‘‘any existing source’’ of
certain pollutants ‘‘to which a standard
of performance would apply if such
existing source were a new source.’’
Under CAA section 111(a)(2) and 40
CFR 60.15(a), a ‘‘new source’’ is defined
as any stationary source, the
construction, modification, or
reconstruction of which is commenced
after the publication of proposed
regulations prescribing a standard of
performance under CAA section 111(b)
applicable to such source. In the CPP,
the EPA noted that, at that time, the
Agency was concurrently finalizing a
rulemaking under CAA section 111(b)
for CO2 emissions from new sources,
which provided the requisite predicate
139 See
80 FR 64715.
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for applicability of CAA section
111(d).140
The EPA explained in the CAA
section 111(b) rule (80 FR 64529) that
‘‘section 111(b)(1)(A) requires the
Administrator to establish a list of
source categories to be regulated under
section 111. A category of sources is to
be included on the list ‘if in [the
Administrator’s] judgment it causes, or
contributes significantly to, air pollution
which may reasonably be anticipated to
endanger public health and welfare.’ ’’
Then, for the source categories listed
under CAA section 111(b)(1)(A), the
Administrator promulgates, under CAA
section 111(b)(1)(B), ‘‘standards of
performance for new sources within
such category.’’ The EPA further took
the position that, because EGUs had
previously been listed, it was
unnecessary to make an additional
finding as a prerequisite for regulating
CO2. The Agency expressed the view
that, under CAA section 111(b)(1)(A),
findings are category-specific and not
pollutant-specific, so a new finding is
not needed with regard to a new
pollutant. The Agency further asserted
that, even if it were required to make a
pollutant-specific finding, given the
large amount of CO2 emitted from this
source category (the largest single
stationary source category of emissions
of CO2 by far) that EGUs would easily
meet the standard for making such a
listing. The Agency further took the
position that, given the large amount of
emissions from the source category, it
was not necessary in that rule ‘‘for the
EPA to decide whether it must identify
a specific threshold for the amount of
emissions from a source category that
constitutes a significant
contribution.’’ 141
That CAA section 111(b) rulemaking
remains in effect, although the EPA has
proposed to revise it.142 That rule
continues to provide the requisite
predicate for applicability of CAA
section 111(d).
C. Designated Facilities for the
Affordable Clean Energy Rule
The EPA is finalizing that a
designated facility 143 subject to this
regulation is any coal-fired electric
utility steam generating unit that: (1) Is
not an integrated gasification combined
cycle (IGCC) unit (i.e., utility boilers,
but not IGCC units); (2) was in operation
140 Id.
80 FR 64531.
83 FR 65424.
143 The term ‘‘designated facility’’ means ‘‘any
existing facility which emits a designated pollutant
and which would be subject to a standard of
performance for that pollutant if the existing facility
were an affected facility.’’ See 40 CFR 60.21a(b).
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142 See
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or had commenced construction on or
before January 8, 2014; 144 (3) serves a
generator capable of selling greater than
25 megawatts (MW) to a utility power
distribution system; and (4) has a base
load rating greater than 260 gigajoules
per hour (GJ/h) (250 million British
thermal units per hour (MMBtu/h)) heat
input of coal fuel (either alone or in
combination with any other fuel).
Consistent with the new implementing
regulations, the term ‘‘designated
facility’’ is used throughout this
preamble to refer to the sources affected
by these emission guidelines.145 For this
action, consistent with prior CAA
section 111 rulemakings concerning
EGUs, the term ‘‘designated facility’’
refers to a single EGU that is affected by
these emission guidelines.
The EPA’s applicability criteria for
ACE differ from those in the CPP
because the EPA’s determination of the
BSER is only for coal-fired electric
utility steam generating units. In the
ACE proposal, the EPA did not identify
a BSER for IGCC units, oil- or natural
gas-fired utility boilers, or fossil fuelfired stationary combustion turbines
and, thus, such units are not designated
facilities for purposes of this action. In
the ACE proposal (and previously in the
ANPRM), the EPA solicited information
on the cost and performance of
technologies that may be considered as
the BSER for fossil fuel-fired stationary
combustion turbines and other fossilfuel fired EGUs. The EPA currently does
not have adequate information to
determine a BSER for these EGUs and,
if appropriate, the EPA will address
GHG emissions from these EGUs in a
future rulemaking.
A coal-fired EGU for purposes of this
rulemaking (and consistent with the
definition of such units in the Mercury
and Air Toxics Standards (MATS) (77
FR 9304)) is an electric utility steam
generating unit that burns coal for more
than 10.0 percent of the average annual
heat input during the three previous
calendar years. Further, for purposes of
this rulemaking, the following EGUs
will be excluded from a state’s plan: (1)
Those units subject to 40 CFR part 60,
subpart TTTT as a result of commencing
144 Under CAA section 111, the determination of
whether a source is a new source or an existing
source (and thus potentially a designated facility)
is based on the date that the EPA proposes to
establish standards of performance for new sources.
January 8, 2014, is the date the proposed GHG
standards of performance for new fossil fuel-fired
EGUs were published in the Federal Register (79
FR 1430).
145 The EPA recognizes, however, that the word
‘‘facility’’ is often understood colloquially to refer
to a single power plant, which may have one or
more EGUs co-located within the plant’s
boundaries.
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a qualifying modification or
reconstruction; (2) steam generating
units subject to a federally enforceable
permit limiting net-electric sales to onethird or less of their potential electric
output or 219,000 megawatt-hour
(MWh) or less on an annual basis; (3) a
stationary combustion turbine that
meets the definition of a simple cycle
stationary combustion turbine, a
combined cycle stationary combustion
turbine, or a combined heat and power
combustion turbine; (4) an IGCC unit;
(5) non-fossil-fuel units (i.e., units
capable of combusting at least 50
percent non-fossil fuel) that have
historically limited the use of fossil
fuels to 10 percent or less of the annual
capacity factor or are subject to a
federally enforceable permit limiting
fossil fuel use to 10 percent or less of
the annual capacity factor; (6) units that
serve a generator along with other steam
generating unit(s) where the effective
generation capacity (determined based
on a prorated output of the base load
rating of each steam generating unit) is
25 MW or less; (7) a municipal waste
combustor unit subject to 40 CFR part
60, subpart Eb; (8) commercial or
industrial solid waste incineration units
that are subject to 40 CFR part 60,
subpart CCCC; or (9) a steam generating
unit that fires more than 50-percent
non-fossil fuels.
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D. Regulated Pollutant
The air pollutant regulated in this
final action is GHGs. However, the
standards in this rule are expressed in
the form of limits solely on emissions of
CO2, and not the other constituent gases
of the air pollutant GHGs.146 The EPA
is not establishing a limit on aggregate
GHGs or separate emission limits for
other GHGs (such as methane (CH4) or
nitrous oxide (N2O)) as other GHGs
represent significantly less than one
percent of total estimated GHG
emissions (as CO2 equivalent) from
fossil fuel-fired electric power
generating units.147 Notwithstanding the
146 In the 2009 Endangerment Finding for mobile
sources, the EPA defined the relevant ‘‘air
pollution’’ as the atmospheric mix of six long-lived
and directly emitted greenhouse gases: Carbon
dioxide (CO2), methane (CH4), nitrous oxide (N2O),
hydrofluorocarbons (HFCs), perfluorocarbons
(PFCs), and sulfur hexafluoride (SF6). See 74 FR
66497. Additionally, note that the new CAA section
111(d) implementing regulations at 40 CFR
60.22a(b)(1) do not change the requirement of the
previous implementing regulations, 40 CFR
60.22(b)(1) that emission guidelines provide
information concerning known or suspected
endangerment of public health or welfare caused,
or contributed to, by the designated pollutant. For
this emission guideline, that information is
contained in the 2009 Endangerment Finding.
147 EPA Greenhouse Gas Reporting Program;
www.epa.gov/ghgreporting/.
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form of the standard, consistent with
other EPA regulations addressing GHGs,
the air pollutant regulated in this rule is
GHGs.148
E. Determination of the Best System of
Emission Reduction
1. Guiding Principles in Determining
the BSER
CAA section 111(d)(1) directs the EPA
to promulgate regulations establishing a
procedure similar to that under CAA
section 110,149 under which states
submit state plans that establish
‘‘standards of performance’’ for
emissions of certain air pollutants from
existing sources which, if they were
new sources, would be subject to new
source standards under CAA section
111(b), and that provide for the
implementation and enforcement of
those standards of performance. Because
CAA section 111(a)(1) defines ‘‘standard
of performance’’ for purposes of all of
section 111, and because federal
standards for new sources established
under section 111(b) and standards for
existing sources established by a state
plan under section 111(d) are both
‘‘standards of performance,’’ it is the
EPA’s responsibility to determine the
BSER for designated facilities for
standards developed under both CAA
section 111(b) for new sources and
section 111(d) for existing sources.150 In
making this determination, the EPA
identifies all ‘‘adequately
demonstrated’’ ‘‘system[s] of emission
reduction’’ for a particular source
category and then evaluates those
systems to determine which is the
‘‘best,’’ 151 while ‘‘taking into account’’
e.g., 79 FR 34960.
section 110 governs state implementation
plans, or SIPs, which states develop and submit for
EPA approval and which are used to ensure
attainment and maintenance of the National
Ambient Air Quality Standards (NAAQS) for
criteria pollutants.
150 See also 40 CFR 60.22a. However, while the
BSER underlying both new- and existing-source
performance standards is determined by the EPA,
the performance standards for new sources are
directly established by the EPA under section
111(b), whereas states establish performance
standards (applying the BSER) for existing sources
in their jurisdiction in their state plans under
section 111(d), and Congress has expressly required
that EPA permit states, in establishing performance
standards for existing sources, to take into account
the remaining useful life of the source and other
source-specific factors. See 42 U.S.C. 7411(d)(1).
151 The D.C. Circuit recognizes that the EPA’s
evaluation of the ‘‘best’’ system must also include
‘‘the amount of air pollution as a relevant factor to
be weighed . . . .’’ Sierra Club v. Costle, 657 F.2d
298, 326 (D.C. Cir. 1981). Additionally, a system
cannot be ‘‘best’’ if it does more harm than good
due to cross-media environmental impacts. See
Portland Cement, 486 F. 2d at 384; Sierra Club, 657
F.2d at 331; see also Essex Chemical Corp., 486
F.2d 427, 439 (D.C. Cir. 1973) (remanding standard
to consider solid waste disposal implications of the
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149 CAA
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the factors of ‘‘cost . . . non-air quality
health and environmental impact and
energy requirements.’’ 152 Because CAA
section 111 does not set forth the weight
that should be assigned to each of these
factors, courts have granted the Agency
a great degree of discretion in balancing
them.153
The CAA limits ‘‘standards of
performance’’ to systems that can be
applied at and to a stationary source
(i.e., as opposed to off-site measures that
are implemented by an owner or
operator, such as subsidizing loweremitting sources) and that lead to
continuous emission reductions (i.e., are
not intermittent control techniques).
Such systems include add-on controls
and lower-emitting processes/practices/
designs that can be applied to a
designated facility, i.e., a building,
structure, facility, or installation
regulated under CAA section 111.154 As
discussed in section II of this preamble,
this is the only permissible
interpretation of the scope of the EPA’s
authority under CAA section 111. But
this clear outer bound on the EPA’s
authority leaves the Agency
considerable room for interpretation and
policy choice within that scope in
determining the BSER that has been
adequately demonstrated to address a
particular source category’s emission of
a given pollutant. Case law under CAA
section 111(b) explains that ‘‘[a]n
adequately demonstrated system is one
which has been shown to be reasonably
reliable, reasonably efficient, and which
can reasonably be expected to serve the
interests of pollution control without
becoming exorbitantly costly in an
economic or environmental way.’’ 155
While some of these cases suggest that
‘‘[t]he Administrator may make a
projection based on existing
technology,’’ 156 the D.C. Circuit has also
BSER determination). Nevertheless, CAA section
111 does not require the ‘‘greatest degree of
emission control’’ or ‘‘mandate that the EPA set
standards at the maximum degree of pollution
control technologically achievable.’’ Sierra Club,
657 F.2d at 330.
152 The EPA may consider energy requirements
on both a source-specific basis and a sector-wide,
region-wide or nationwide basis. Considered on a
source-specific basis, ‘‘energy requirements’’ entail,
for example, the impact, if any, of the system of
emission reduction on the source’s own energy
needs. As discussed in this document, a
consideration of ‘‘energy requirements’’ informs the
EPA’s judgment that repowering and refueling coalfired facilities to be fueled by natural gas is not
appropriate for consideration as BSER here.
153 Lignite Energy, 198 F.3d 930, 933 (D.C. Cir.
1999).
154 See section 111(a)(3) for definition of
‘‘stationary source.’’
155 Essex Chemical Corp., 486 F.2d 375, 433–34
(D.C. Cir. 1973).
156 Portland Cement Ass’n v. Ruckelshaus, 486
F.2d 375, 391 (D.C. Cir. 1973).
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noted that ‘‘there is inherent tension’’
between considering a particular control
technique as both ‘‘an emerging
technology and an adequately
demonstrated technology.’’ 157
Nevertheless, the EPA appears to ‘‘have
authority to hold the industry to a
standard of improved design and
operational advances, so long as there is
substantial evidence that such
improvements are feasible.’’ 158 The
essential question, therefore, is whether
the BSER is ‘‘available.’’ 159
In considering the availability of
different systems of emission reduction,
the ‘‘EPA must examine the effects of
technology on the grand scale,’’ because
CAA section 111 standards are, after all,
‘‘a national standard with long-term
effects.’’ 160 To that end, the Agency
must ‘‘consider the representativeness
for the industry as a whole of the tested
plants on which it relies. . . .’’ 161 A
CAA section 111 standard, therefore,
‘‘cannot be based on a ‘crystal ball’
inquiry.’’ 162
Whereas the EPA establishes
performance standards for new sources
under CAA section 111(b), section
111(d) provides that states are primarily
responsible for regulating existing
sources. This bifurcated approach
dovetails with testimony offered during
development of the CAA Amendments
of 1970 (which established the section
111 program)—specifically, Secretary
Finch explained that ‘‘existing
stationary sources of air pollution are so
numerous and diverse that the problems
they pose can most efficiently be
attacked by state and local agencies.’’ 163
Indeed, Congress eventually made
explicit the requirement that the EPA
157 Sierra Club v. Costle, 657 F.2d 298, 341 n.157
(D.C. Cir.1981); see also NRDC v. Thomas, 805 F.2d
410, n.30 (D.C. Cir. 1986) (suggesting that ‘‘a
standard cannot both require adequately
demonstrated technology and also be technologyforcing’’).
158 Sierra Club, 657 F.2d at 364. It is not clear
whether these cases would have applied the same
technology-forcing philosophy to the regulation of
existing sources, as at least one case noted that
section 111 ‘‘looks toward what may fairly be
projected for the regulated future, rather than the
state of the art at present, since it is addressed to
standards for new plants—old stationary source
pollution being controlled through other regulatory
authority.’’ Portland Cement, 486 F.2d at 391
(emphasis added).
159 See Portland Cement v. Ruckelshaus, 486 F.2d
at 391.
160 Id. at 330.
161 Nat’l Lime Ass’n v. EPA, 627 F.2d 416, 432–
33 (D.C. Cir. 1980).
162 Essex Chemical Corp., 486 F.2d at 391.
163 Testimony of Robert Finch, Secretary of
Health, Education, and Welfare (which regulated air
pollution prior to the establishment of the EPA) in
support of S. 3466/H.R. 15848, before the House
Subcommittee on Public Health and Welfare, H.
Hearing (May 16, 1970), 1970 CAA Legis. Hist. at
1369.
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allow states to take into account the
‘‘remaining useful life’’ of an existing
source, ‘‘among other factors,’’ when
applying a standard of performance to
any particular source.164 Accordingly,
the Agency’s identification of the BSER
is based on what is ‘‘adequately
demonstrated’’ and broadly achievable
for a source category across the country,
while each state—which will be more
familiar with the operational and design
characteristics of actually existing
sources within their borders—is
responsible for developing sourcespecific standards reflecting application
of the BSER.165 Indeed, Congress has
expressly provided that the EPA must
permit states to take into consideration
a source’s remaining useful life, among
other factors, when applying a standard
of performance to a particular source.166
In the ACE proposal, the EPA
provided a discussion of the identified
systems of emission reduction and
explained why certain systems were
eliminated from consideration at a
preliminary state or were otherwise
determined not to be the ‘‘best system.’’
The EPA received public comments that
challenged or refuted the Agency’s
evaluation of these systems of emission
reduction. A discussion of those
reduction measures and a summary of
significant public comments are
provided below.
The EPA proposed that ‘‘heat rate
improvement’’ (HRI, which may also be
referred to as ‘‘efficiency improvement’’)
is the BSER for existing coal-fired EGUs.
In this action, after consideration of
public comments, the EPA is finalizing
its proposed determination that HRI is
the BSER. The basis for the final
determination and a summary of
significant public comments received on
the proposed determination are
discussed below.
2. Heat Rate Improvement Is the BSER
for Existing Coal-Fired EGUs
a. Background and BSER Determination
Heat rate is a measure of efficiency
that is commonly used in the power
sector. The heat rate is the amount of
energy or fuel heat input (typically
measured in British thermal units, Btu)
required to generate a unit of electricity
(typically measured in kilowatt-hours,
kWh). The lower an EGU’s heat rate, the
more efficiently it converts heat input to
electrical output. As a result, an EGU
U.S.C. 7411(d)(1).
approach is analogous to the NAAQS
program: Where ‘‘[e]ven with air quality standards
being set nationally . . . the steps needed to deal
with existing stationary sources would necessarily
vary from one State to another and, within States,
from one area to another . . . .’’ Id.
166 42 U.S.C. 7411(d)(1).
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165 This
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32535
with a lower heat rate consumes less
fuel per kWh of electricity generated
and, as a result, emits lower amounts of
CO2—and other air pollutants—per kWh
generated (as compared to a less
efficient unit with a higher heat rate).
Heat rate data from existing coal-fired
EGUs indicate that there is potential for
improvement across the source category.
Heat rate improvement measures can
be applied—and some measures have
already been applied—to all existing
EGUs (supporting the Agency’s
determination that HRI measures are the
BSER). However, the U.S. fleet of
existing coal-fired EGUs is a diverse
group of units with unique individual
characteristics that are spread across the
country.167 As a result, heat rates of
existing coal-fired EGUs in the U.S. vary
substantially. Thus, even though the
variation in heat rates among EGUs with
similar design characteristics, as well as
year-to-year variation in heat rate at
individual EGUs, indicate that there is
potential for HRI that can improve CO2
emission performance across the
existing coal-fired EGU fleet, this
potential may vary considerably at the
unit level—including because particular
units may not be able to employ certain
HRI measures, or may have already
done so. Accordingly, the EPA
identified several available technologies
and equipment upgrades, as well as best
operating and maintenance practices,
that EGU owners or operators may apply
to improve an individual EGU’s heat
rate. The EPA referred to these HRI
technologies and techniques as
‘‘candidate technologies’’ and solicited
comment on their technical feasibility,
applicability, performance, and cost.
The EPA received numerous public
comments, both supporting and
opposing, the proposed determination
that HRI is the BSER. Many commenters
supported the proposed concept of a
unit-specific, state-led evaluation of HRI
potential as a means of establishing a
unit-specific standard of performance.
The commenters argued that it is not
possible to adopt uniform, nationally
applicable standards of performance
based on implementation of particular
HRI technologies because each
individual unit is subject to a unique
combination of factors that can affect
the unit’s heat rate and HRI potential,
many of which are geographically
driven and outside the control of a
167 For example, the current fleet of existing fossil
fuel-fired EGUs is quite diverse in terms of size, age,
fuel type, operation (e.g., baseload, cycling), boiler
type, etc. Moreover, geography and elevation, unit
size, coal type, pollution controls, cooling system,
firing method, and utilization rate are just a few of
the parameters that can impact the overall
efficiency and performance of individual units.
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source. The EPA agrees with these
commenters. As previously mentioned,
the U.S. fleet of existing coal-fired EGUs
is diverse in terms of size, vintage, fuel
usage, design, geographic location, etc.
The HRI potential for each unit will be
influenced by source-specific factors
such as the EGU’s past and projected
utilization rate, maintenance history,
and remaining useful life (among other
factors). Therefore, standards of
performance must be established from a
unit-level evaluation of the application
of the BSER and consideration of other
factors at the unit level. States are in the
best position to make those evaluations
and to consider of other unit-specific
factors, and indeed CAA section
111(d)(1) directs EPA to permit states to
take such factors into consideration as
they develop plans to establish
performance standards for existing
sources within their jurisdiction.
Other commenters opposed the
proposed use of unit-specific HRI plans
because the commenters believe that
this interpretation is inconsistent with
the legislative history and that this
approach does not enable significant
emissions reductions. Some
commenters said that defining BSER in
terms of operational efficiency (heat
rate) is not consistent with the
understanding reflected in the EPA’s
historic practice in all previous CAA
section 111(d) rules, where the BSER
was determined based on a specific
emission reduction technology. The
EPA disagrees with the contention. The
EPA proposed that HRI through the
application of a specific set of emission
reduction technologies (discussed in
more detail below) and operational
practices is the BSER. That approach is
consistent with the direction given in
the statute. It is also an approach that
recognizes the challenges of applying a
single specific emission reduction
technology within such a diverse
population of designated facilities.
After consideration of public
comment, the EPA affirms its
determination that, as proposed, HRI is
the BSER for existing coal-fired EGUs.
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b. The List of Candidate Technologies
While a large number of HRI measures
have been identified in a variety of
studies conducted by government
agencies and outside groups,168 some of
those identified technologies have
168 See
Table 3 in ANPRM, 82 FR 61515.
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limited applicability and many provide
only negligible HRI. The EPA stated in
the proposal that it believed that
requiring a state in developing its plan
to evaluate the applicability to each of
its sources of the entire list of potential
HRI options—including those with
limited applicability and with negligible
benefits—would be overly burdensome
to the states. Therefore, the EPA
identified and proposed a list of the
‘‘most impactful’’ HRI technologies,
equipment upgrades, and best operating
and maintenance practices that form the
list of ‘‘candidate technologies’’
constituting the BSER. The candidate
technologies of the BSER are listed in
Table 1 below. Those technologies,
equipment upgrades, and best operating
and maintenance practices were deemed
to be ‘‘most impactful’’ because they can
be applied broadly and are expected to
provide significant HRI without
limitations due to geography, fuel type,
etc. The EPA solicited comment on each
of the proposed candidate technologies
and on whether any additional
technologies should be added to the list,
and on whether there is additional
information that the EPA should be
aware of and consider in determining
the BSER and establishing the candidate
technologies for HRI measures.
The EPA received numerous public
comments on the list of candidate
technologies. Some commenters stated
that there are additional available HRI
technologies that should be added to the
list of candidate technologies, while
many other commenters agreed that the
proposed list of ‘‘candidate
technologies’’ is reasonable and should
be considered the core group for states
to evaluate in establishing standards of
performance. Commenters agreed that
the proposed list of ‘‘candidate
technologies’’ focuses the states’
standard-setting process on those HRI
measures with the greatest ability to
impact CO2 emissions. Commenters
further stated that the EPA’s proposed
candidate technology list will limit the
burden on states by eliminating the
need to consider measures that would
almost certainly be rejected due to
negligible emission reduction benefits,
disproportionate costs, or availability.
However, commenters also noted that
there may be additional HRI
opportunities available to a significant
number of designated facilities and that
states should not be required to limit
their evaluations to just the ‘‘candidate
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technologies’’ in establishing unitspecific standards of performance. Some
commenters suggested that the EPA
establish a process whereby HRI
solutions can be added to the list of
‘‘candidate technologies.’’
Commenters also stated that some of
the equipment upgrades and operating
practices proposed as candidate
technologies have the potential to
improve an EGU’s net heat rate by
reducing auxiliary load but would have
no impact on the unit’s gross heat
rate.169 Comments regarding gross
versus net heat rate, and gross- versus
net-based standards of performance, are
discussed in more detail below in
section III.F.1.c of this preamble.
The EPA considered the public
comments on the BSER technologies
and believes that the proposed list still
represents the most broadly applicable
and impactful collection of HRI
measures. Therefore, the EPA is, in this
action, finalizing the proposed
technologies, equipment upgrades, and
best operating and maintenance
practices provided in Table 1 of the
proposal 170 as the final list of
‘‘candidate technologies’’ whose
applicability to each designated facility
within their boundaries states must
evaluate in establishing a standard of
performance for that source in their
state plans under CAA section 111(d).
The technologies and operating and
maintenance practices listed and
described below are generally available
and appropriate for all types of EGUs.
However, some existing EGUs will have
already implemented some of the listed
HRI technologies, equipment upgrades,
and operating and maintenances
practices. There will also be unitspecific physical or cost considerations
that will limit or prevent full
implementation of the listed HRI
technologies and equipment upgrades.
States will consider these and other
factors when establishing unit-level
standards of performance. The final list
of ‘‘candidate technologies’’—with the
range of expected percent HRI—is
provided below in Table 1.
169 The gross heat rate is the fuel heat input
required to generate a unit of electricity (typically
presented in Btu/kWh-gross). The net heat rate is
the fuel heat input required to generate a unit of
electricity minus the electricity that is used to
power facility auxiliary equipment (typically
presented in Btu/kWh-net).
170 See 83 FR 44757.
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32537
TABLE 1—SUMMARY OF MOST IMPACTFUL HRI MEASURES AND RANGE OF THEIR HRI POTENTIAL (%) BY EGU SIZE
<200 MW
200–500 MW
>500 MW
HRI Measure
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Min
Max
Min
Improved Operating and Maintenance
(O&M) Practices ...................................
Can range from 0 to >2.0% depending on the unit’s historical O&M practices.
the EPA is retaining these two candidate
technologies as part of the final BSER,
because it still expects these
technologies to be generally applicable
across the fleet of existing EGUs, and
because the costs of the technologies
themselves are generally economical
and reasonable.
c. Level of Stringency Associated With
the BSER
As discussed in section III.B above,
the EPA has the authority and
responsibility to determine the BSER.
CAA section 111(d)(1), meanwhile,
clearly assigns states the role of
developing a plan that establishes
standards of performance for designated
facilities (with EPA’s authority to
promulgate a federal plan serving as a
backstop in the event that a state fails
to develop a satisfactory plan 172). Based
on these statutory divisions of roles and
responsibilities, the EPA proposed to
determine the BSER as HRI achievable
through implementation of certain
technologies, equipment upgrades, and
improved O&M practices. The EPA also
declined to propose a standard of
performance that presumptively reflects
application of the BSER because the
establishment of standards of
performance for existing sources is the
states’ role.173 While declining to
provide a presumptive standard, the
EPA also proposed to provide
information on the degree of emission
limitation achievable through
application of the BSER by providing a
range of reductions and costs associated
with each of the candidate technologies
identified as part of the BSER.174
The EPA received numerous
comments from states and industry
requesting that the EPA provide a
presumptive standard, or at minimum,
additional guidance and clarity on how
states could derive a standard of
performance that meets the
172 See
section 111(d)(2).
83 FR 44764.
174 See 83 FR 44757, Table 1.
173 See
80 FR 44783.
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1.0
0.5
0.4
1.0
2.9
1.0
Max
0.5
0.2
0.1
0.2
0.9
0.5
171 See
0.3
0.2
0.1
0.2
1.0
0.5
Min
Neural Network/Intelligent Sootblowers ...
Boiler Feed Pumps ..................................
Air Heater & Duct Leakage Control .........
Variable Frequency Drives ......................
Blade Path Upgrade (Steam Turbine) .....
Redesign/Replace Economizer ................
Two of the technologies shown in
Table 1—‘‘Blade Path Upgrade (Steam
Turbine)’’ and ‘‘Redesign/Replace
Economizer’’—are candidate
technologies that are expected to offer
some of the largest improvements in
unit-level heat rate. However, based on
public comments from the ANPRM and
the ACE proposal, those also are HRI
technologies that have the most
potential to trigger NSR requirements.
Industrial stakeholders and commenters
have indicated, if such HRI trigger NSR,
the resulting requirements for analysis,
permitting, and capital investments will
greatly increase the cost of
implementing those HRI technologies
and, in the absence of NSR reforms,
states will be more likely to determine
that those technologies are not costeffective when analyzing ‘‘other factors’’
in determining a standard of
performance for an individual facility.
For the ACE proposal, the EPA
reflected this in assumptions made in
the power sector modeling, using the
Integrated Planning Model (IPM), to
assess potential costs and benefits of the
proposed rule. In that modeling, the
EPA assumed two different levels of
potential HRI (in percentage terms)—a
lower expected HRI without NSR reform
and a higher expected HRI with NSR
reform.171
As mentioned earlier in this
preamble, the EPA is not taking final
action on the proposed NSR reforms in
this final rulemaking action; the EPA
intends to take final action on that
proposal in a separate final action at a
later date. Without finalization of NSR
reforms, the EPA anticipates that states
in some instances may determine, when
considering other factors, that the
candidate technologies, ‘‘Blade Path
Upgrade (Steam Turbine)’’ and
‘‘Redesign/Replace Economizer,’’ are
less appropriate for application to a
particular source or sources than the
EPA anticipated would be when it
proposed the ACE Rule. Nevertheless,
1.4
0.5
0.4
0.9
2.7
0.9
Max
0.3
0.2
0.1
0.2
1.0
0.5
0.9
0.5
0.4
1.0
2.9
1.0
requirements of this regulation.
Additionally, several commenters
contended that under CAA section
111(a)(1), the EPA is legally obligated to
identify ‘‘the degree of emission
limitation achievable through the
application of the [BSER]’’ (i.e., a level
of stringency) because such degree of
emission limitation is inextricably
linked with the determination of the
BSER, which is the EPA’s statutory role
and responsibility. Upon consideration
of these comments, especially the
widespread request for more guidance
from the EPA on developing appropriate
standards of performance, the EPA
agrees that it has a responsibility under
the CAA to identify the degree of
emission reduction that it determines to
be achievable through the application of
the BSER.
While the CAA provides that the
responsibility to establish standards of
performance is a state’s responsibility,
the EPA is identifying the degree of
emission limitation achievable through
the application of the BSER (i.e., the
level of stringency) associated with the
candidate technologies. By providing
the level of emissions reductions
achievable using the candidate
technologies the EPA is fulfilling its
responsibility as part of the BSER
determination. In this instance, the EPA
has identified the degree of emission
limitation achievable through
application of the BSER by providing
ranges of expected reductions associated
with each of the technologies. These
ranges are provided in Table 1, clearly
presenting the percentage improvement
ranges that can be expected when each
candidate technology comprising the
BSER is applied to a designated facility.
Defining the ranges of HRI as the degree
of emission limitation achievable
through application of the BSER is
consistent with the EPA’s position at
proposal, where EPA noted that ‘‘while
the HRI potential range is provided as
guidance for the states, the actual HRI
performance for each of the candidate
technologies will be unit-specific and
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will depend upon a range of unitspecific factors. The states will use the
information provided by the EPA as
guidance but will be expected to
conduct unit-specific evaluations of HRI
potential, technical feasibility, and
applicability for each of the BSER
candidate technologies.’’ 175 For
purposes of the final ACE rule, states
will utilize the ranges of HRI the EPA
has provided in developing standards of
performance but may ultimately
establish standards of performance for
one or more existing sources within
their jurisdiction that reflect a value of
HRI that falls outside of these ranges.
See section III.F.1.a of this preamble.
It is reasonable for the EPA to express
the ‘‘degree of emission limitation
achievable through application of the
BSER’’ as a set of ranges of values,
rather than a single number, that reflects
application of the candidate
technologies as a whole. This approach
is reasonable in light of the nature of
what the EPA has identified as the
adequately demonstrated BSER (as well
as of the structure of section 111 in
general and the interplay between
section 111(a)(1) and section 111(d) in
particular): A suite of candidate
technologies that the EPA anticipates
will be generally applicable to EGUs at
the fleet-wide level but not all of which
may be applicable or warranted at the
level of a particular facility due to
source-specific factors such as the sitespecific operational and maintenance
history, the design and configuration,
the expected operating plans, etc.
Because of the importance for
applicability of the BSER of these
source-specific factors, and because the
application and installation of the
candidate technologies will result in
varying degrees of reductions based on
application of each of the BSER
technologies into the existing
infrastructure of the EGU, the EPA has
provided ranges of HRI associated with
each technology. This accounts for some
of the variation that is expected among
the designated facilities (see section
III.F.1.a.(1) of this preamble for
discussion of variable emission
performance at and between designated
facilities). While these ranges represent
the degree of emission reduction
achievable through application of the
BSER, a particular designated facility
may have the potential for more or less
HRI as a result of the application of the
candidate technology based on sourcespecific characteristics. As further
discussed in section III.F. of this
preamble, the level of stringency
associated with each candidate
175 See
83 FR 44763.
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technology is to be used by states in the
process of establishing a standard of
performance, and in this process, states
may also consider source-specific
factors such as variability that may
result in a different level of
stringency.176
d. Detail on the HRI Technologies &
Techniques
(1) Neural Network/Intelligent
Sootblower
Neural networks. Computer models,
known as neural networks, can be used
to simulate the performance of the
power plant at various operating loads.
Typically, the neural network system
ties into the plant’s distributed control
system for data input (process
monitoring) and process control. The
system uses plant specific modeling and
control modules to optimize the unit’s
operation and minimize the emissions.
This model predictive control can be
particularly effective at improving the
plant’s performance and minimizing
emissions during periods of rapid load
changes—conditions that commenters
claimed to be more prevalent now than
was the case 5 to 10 years ago. The
neural network can be used to optimize
combustion conditions, steam
temperatures, and air pollution control
equipment.
Intelligent Sootblowers. During
operations at a coal-fired power plant,
particulate matter (PM) (ash or soot)
builds up on heat transfer surfaces. This
build-up degrades the performance of
the heat transfer equipment and
negatively affects the efficiency of the
plant. Power plant operators use steam
injection ‘‘sootblowers’’ to clean the
heat transfer surfaces by removing the
ash build-up. This is often done on a
routine basis or as needed based on
monitored operating characteristics.
Intelligent sootblowers (ISB) are
automated systems that use process
measurements to monitor the heat
transfer performance and strategically
allocate steam to specific areas to
remove ash buildup.
The cost to implement an ISB system
is relatively inexpensive if the necessary
hardware is already installed. The ISB
software/control system is often
incorporated into the neural network
software package mentioned above. As
such, the HRIs obtained via installation
of neural network and ISB systems are
not necessarily cumulative.
176 As described later in the preamble in section
III.F., the EPA envisions states will develop
standards of performance for designated facilities in
a two -step process where states first apply the
BSER and then consider source-specific factors
such as remaining useful life.
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The efficiency improvements from
installation of ISB are often greatest for
EGUs firing subbituminous coal and
lignite due to more significant and rapid
fouling at those units as compared to
EGUs firing bituminous coal.
Commenters recommended that the
EPA disaggregate its analysis of neural
networks and ISB because these
technologies do not have to be deployed
together and implementing one without
the other may be appropriate in many
cases. The EPA agrees that the
technologies do not have to be
implemented together and states must
evaluate the applicability and
effectiveness of both technologies. The
technologies were listed together to
emphasize that they are often
implemented together and that the
resulting HRIs from each are not
necessarily additive.
(2) Boiler Feed Pumps
A boiler feed pump (or boiler
feedwater pump) is a device used to
pump feedwater into a boiler. The water
may be either freshly supplied or
returning condensate produced from
condensing steam produced by the
boiler. The boiler feed pumps consume
a large fraction of the auxiliary power
used internally within a power plant.
For example, boiler feed pumps can
require power in excess of 10 MW on a
500–MW power plant. Therefore, the
maintenance on these pumps should be
rigorous to ensure both reliability and
high-efficiency operation. Boiler feed
pumps wear over time and subsequently
operate below the original design
efficiency. The most pragmatic remedy
is to rebuild a boiler feed pump in an
overhaul or upgrade.
Commenters stated that because
upgrading an electric boiler feed pump
impacts only net heat rate (and not gross
heat rate), it should be excluded from
the candidate technologies list. The EPA
disagrees that candidate technologies
affecting only the net heat rate should
be removed from the candidate
technologies list. These technologies
improve the efficiency and reduce
emissions from the plant by reducing
the auxiliary power load, allowing for
more of the produced power to be
placed on the grid. As is discussed
below in section III.F.1.c., the state will
determine whether to establish
standards of performance as gross
output-based standards or as net outputbased standards. If states establish gross
output-based standards, it will be up to
the states to determine how to account
for emission reductions that are
attributable to technologies affecting
only the net output.
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(3) Air Heater and Duct Leakage Control
The air pre-heater is a device that
recovers heat from the flue gas for use
in pre-heating the incoming combustion
air (and potentially for other uses such
as coal drying). Properly operating air
pre-heaters play a significant role in the
overall efficiency of a coal-fired EGU.
The air pre-heater may be regenerative
(rotary) or recuperative (tubular or
plate). A major difficulty associated
with the use of regenerative air preheaters is air in-leakage from the
combustion air side to the flue gas side.
Air in-leakage affects boiler efficiency
due to lost heat recovery and affects the
axillary load since any in-leakage
requires additional fan capacity. The
amount of air leaking past the seals
tends to increase as the unit ages.
Improvements to seals on regenerative
air pre-heaters have enabled the
reduction of air in-leakage.
The EPA received comments that
claimed the applicability of air preheater seals is limited, and that lowleakage seals are not feasible on certain
units while other commenters agreed
that the HRI estimates for leakage
reduction are reasonable, and HRI
improvement from 0.25 to 1.0 percent is
achievable. The EPA agrees that the HRI
estimates for air heater and duct inleakage are reasonable. The EPA agrees
that low-leakage seals are not feasible
for certain units (e.g., those using
recuperative air heaters). However, the
EPA is finalizing a determination that
this candidate technology is an element
of the BSER because limiting air inleakage in the air heater and associated
duct work can be evaluated on all units
and limiting the amount of air inleakage will improve the efficiency of
the unit.
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(4) Variable Frequency Drives (VFDs)
VFD on induced draft (ID) fans. The
increased pressure required to maintain
proper flue gas flow through
downstream air pollutant control
equipment may require additional fan
power, which can be achieved by an ID
fan upgrade/replacement or an added
booster fan. Generally, older power
plant facilities were designed and built
with centrifugal fans.
The most precise and energy-efficient
method of flue gas flow control is the
use of VFD. The VFD controls fan speed
electrically by using a static controllable
rectifier (thyristor) to control frequency
and voltage and, thereby, the fan speed.
The VFD enables very precise and
accurate speed control with an almost
instantaneous response to control
signals. The VFD controller enables
highly efficient fan performance at
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almost all percentages of flow
turndown.
Due to current electricity market
conditions, many units no longer
operate at base-load capacity and,
therefore, VFDs, also known as variablespeed drives on fans can greatly
enhance plant performance at off-peak
loads. Additionally, units with
oversized fans can benefit from VFD
controls. Under these scenarios, VFDs
can significantly improve the unit heat
rate. VFDs as motor controllers offer
many substantial improvements to
electric motor power requirements. The
drives provide benefits such as soft
starts, which reduce initial electrical
load, excessive torque, and subsequent
equipment wear during startups;
provide precise speed control; and
enable high-efficiency operation of
motors at less than the maximum
efficiency point. During load turndown,
plant auxiliary power could be reduced
by 30–60 percent if all large motors in
a plant were efficiently controlled by
VFD. With unit loads varying
throughout the year, the benefits of
using VFDs on large-size equipment,
such as FD or ID fans, boiler feedwater
and condenser circulation water pumps,
can have significant impacts. There are
circumstances in which the HRI has
been estimated to be much higher than
that shown in Table 1, depending on the
operation of the unit. Cycling units
realize the greatest gains representative
of the upper range of HRI, whereas units
which were designed with excess fan
capacity will exhibit the lower range.
VFD on boiler feed pumps. VFDs can
also be used on boiler feed water pumps
as mentioned previously. Generally, if a
unit with an older steam turbine is rated
below 350 MW, the use of motor-driven
boiler feedwater pumps as the main
drivers may be considered practical
from an efficiency standpoint. If a unit
cycles frequently then operation of the
pumps with VFDs will offer the best
results on heat rate reductions, followed
by fluid couplings. The use of VFDs for
boiler feed pumps is becoming more
common in the industry for larger units.
And with the advancements in low
pressure steam turbines, a motor-driven
feed pump can improve the thermal
performance of a system up to the 600–
MW range, as compared to the
performance associated with the use of
turbine drive pumps.
Some commenters stated that VFDs
should be excluded from the candidate
technologies list because the efficiency
improvements are likely near zero when
the EGU operates as a baseload unit.
Commenters further stated that VFD
installation may not be reasonable
because of their high cost, large physical
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size, and significant cooling
requirements. The EPA agrees that VFD
HRIs will be less effective for units that
operate consistently at high capacity
factors at base load conditions.
However, due to the changing nature of
the power sector (increased use of
natural gas-fired generating sources,
more intermittent renewable generating
sources, etc.), many coal-fired EGUs are
cycling more often and the heat rate of
such units will benefit from installation
of VFD technology. In evaluating the
applicability of the BSER technologies,
states will consider ‘‘other factors’’ that
will include expected utilization rate,
remaining useful life, physical/space
limitations, etc. That evaluation of
‘‘other factors’’ will identify whether
implementation of a BSER candidate
technology is reasonable. The EPA is
finalizing a determination that this
candidate technology is an element of
the BSER because it contributes to
emission reductions and it is broadly
applicable at reasonable cost.
Commenters also stated that VFDs
only impact net heat rate, so efficiency
improvements may not be cost-effective.
As stated earlier, if the states choose to
establish gross output-based standards
of performance, it will be up to the
states to determine how to account for
emission reductions attributable to
improvement to net heat rate.
(5) Blade Path Upgrade (Steam Turbine)
Upgrades or overhauls of steam
turbines offer the greatest opportunity
for HRI on many units. Significant
increases in performance can be gained
from turbine upgrades when plants
experience problems such as steam
leakages or blade erosion. The typical
turbine upgrade depends on the history
of the turbine itself and its overall
performance. The upgrade can entail
myriad improvements, all of which
affect the performance and associated
costs. The availability of advanced
design tools, such as computational
fluid dynamics (CFD), coupled with
improved materials of construction and
machining and fabrication capabilities
have significantly enhanced the
efficiency of modern turbines. These
improvements in new turbines can also
be utilized to improve the efficiency of
older steam turbines whose efficiency
has degraded over time.
Commenters stated that steam turbine
blade path upgrades may not be
achievable for every turbine because of
the potentially significant variability in
an individual turbine’s parameters
when considering costs. Commenters
further noted that these are large
investments that can require lengthly
outages and long lead times.
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Other commenters noted that these
steam turbine blade path upgrades have
been commercially available for over 10
years and that the HRI estimates in
Table 1 appear reasonable.
The EPA agrees that steam turbine
blade path upgrades are commercially
available and that the HRI estimates in
Table 1 appear to be consistent with
other estimates of HRI achievable from
this type of upgrade. As mentioned
earlier, based on public comments
responding to the ANPRM and the ACE
proposal, this HRI measure has the
potential to trigger NSR requirements
(in the absence of NSR program
reforms), and the EPA anticipates that,
among the candidate technologies
identified as comprising the BSER,
states may be relatively more likely to
determine in light of the resulting
requirements for analysis, permitting,
and capital investments that this
candidate technology is not
economically feasible when evaluating
it in the process of establishing
standards of performance for particular
existing sources within their
jurisdiction. Nevertheless, the EPA is
finalizing a determination that steam
turbine blade bath upgrades are part of
the BSER because the EPA anticipates
they will still be generally available and
feasible at a sufficient scale among the
nationwide fleet.
the values in Table 1 appear to reflect
a major economizer redesign which may
not be possible for many units. The EPA
agrees that there will likely be sitespecific factors that must be considered
to determine whether economizer
redesign/replacement is a feasible HRI
option (as is the case for all the BSER
candidate technologies). Nevertheless,
the EPA is finalizing a determination
that economizer upgrades (or
replacement) are part of the BSER
because the EPA anticipates they will
still be generally available and feasible
at a sufficient scale among the
nationwide fleet. As mentioned earlier,
states may take into consideration sitespecific characteristics (‘‘other factors’’)
when establishing a standard of
performance for each unit.
(6) Redesign/Replace Economizer
In steam power plants, economizers
are heat exchange devices used to
capture waste heat from boiler flue gas
which is then used to heat the boiler
feedwater. This use of waste heat
reduces the need to use extracted energy
from the system and, therefore,
improves the overall efficiency or heat
rate of the unit. As with most other heat
transfer devices, the performance of the
economizer will degrade with time and
use, and power plant representatives
contend that economizer replacements
are often delayed or avoided due to
concerns about triggering NSR
requirements. In some cases,
economizer replacement projects have
been undertaken concurrently with
retrofit installation of selective catalytic
reduction (SCR) systems because the
entrance temperature for the SCR unit
must be controlled to a specific range.
Commenters stated that redesigning or
replacing an economizer may be limited
for some units by the need to maintain
appropriate temperatures at a
downstream SCR system for nitrous
oxides (NOx) control. Commenters also
stated that applicability of this measure
will be site-specific because boiler
layout and construction varies widely
between units. Commenters stated that
(a) Adopt HRI Training for O&M Staff
EGU operators can obtain HRI by
adopting ‘‘awareness training’’ to ensure
that all O&M staff are aware of best
practices and how those practices affect
the unit’s heat rate.
Some commenters agreed that HRI
training can improve staff awareness of
plant efficiency measures, which should
result in improved plant performance.
Other commenters stated that the
benefits of HRI training are highly
variable and depend on existing
equipment and staff. Some commenters
stated that the operating staff already
routinely undergo HRI training and that
states should not be required to consider
these measures in developing their
plans. The EPA agrees that the benefits
will be variable from unit to unit
depending upon the unit’s historical
O&M practices. If operating staff at a
source already undergo routine HRI
training, then the state will note that in
the standard-setting process. Just as an
EGU that has recently installed new or
reconstructed boiler feed pumps would
not be expected to replace those pumps,
a source that already has an effective
HRI training program in place would
not be expected to implement a new
HRI training program. The EPA is
finalizing a determination that this
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(7) HRI Techniques—Best Operating and
Maintenance Practices
Many unit operators can achieve
additional HRI by adopting best O&M
practices. The amount of achievable HRI
will vary significantly from unit to unit,
ranging from no improvement to
potentially more than 2.0 percent
depending on the unit’s historical O&M
practices. In setting a standard of
performance for a specific unit or
subcategory of units, states will evaluate
the opportunities for HRI from the
following actions.
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practice is an element of the BSER
because it can result in emission
reductions and can be broadly
implemented at reasonable cost.
(b) Perform On-Site Appraisals To
Identify Areas for Improved Heat Rate
Performance
Some large utilities have internal
groups that can perform on-site
evaluations of heat rate performance
improvement opportunities. Outside
(i.e., third-party) groups can also
provide site-specific/unit-specific
evaluations to identify opportunities for
HRI.
Commenters stated that the benefits of
on-site appraisals are variable,
speculative, and site-specific.
Commenters stated that no state should
determine what opportunities a coalfired EGU might find during an on-site
appraisal, and, therefore, that states
should not be required to evaluate the
applicability of on-site appraisals when
developing their plans and establishing
standards of performance for existing
sources within their jurisdiction. The
EPA agrees that the benefits of on-site
appraisals will be variable and sitespecific. As with other BSER measures,
it will be up to each state to determine
the extent of this requirement. States
may require that the owner/operator
perform an on-site appraisal to identify
areas for HRI or the state may choose to
have a third party conduct an on-site
HRI appraisal.
(c) Improved Steam Surface
Condenser—Cleaning
Effective operation of the steam
surface condenser in a power plant can
significantly improve a unit’s heat rate.
In fact, in many cases ineffective
operation can pose the most significant
hindrance to a plant trying to maintain
its original design heat rate. Since the
primary function of the condenser is to
condense steam flowing from the last
stage of the steam turbine to liquid form,
it is most desirable from a
thermodynamic standpoint that this
occurs at the lowest temperature
reasonably feasible. By lowering the
condensing temperature, the
backpressure on the turbine is lowered,
which improves turbine performance.
Condenser cleaning. A condenser
degrades primarily due to fouling of the
tubes and air in-leakage. Tube fouling
leads to reduced heat transfer rates,
while air in-leakage directly increases
the backpressure of the condenser and
degrades the quality of the water.
Condenser tube cleaning can be
performed using either on-line methods
or more rigorous off-line methods.
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Commenters stated that improved
steam surface condenser cleaning is a
viable O&M option. Commenters stated
that the need for such cleaning can be
determined by enhanced monitoring of
condenser performance. The EPA agrees
with this assessment and notes that
many owner/operators may already
have steam surface condenser cleaning
as part of routine O&M for their units.
The EPA is finalizing a determination
that this O&M practice is an element of
the BSER because it provides
opportunity for heat rate improvement
and is broadly applicable.
e. Cost of HRI
The EPA finds that the costs of the
HRI technologies and practices that the
EPA has identified as the BSER and
provided in Table 1 are reasonable
because they improve the efficiency of
the units to which they are applied.
This results in lower operating costs
(especially lower fuel costs). In fact,
these HRI technologies and practices are
the types of efficiency improvement
measures that some owners and
operators have reasonably implemented
at times over the course of the operating
life of their EGUs. In specific
circumstances the cost to implement
one or more of the technologies may be
determined to be unreasonable—after
consideration of source-specific factors.
This will be determined when states
establish standards by applying the
BSER and taking other factors, including
remaining useful life, into
consideration.
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(1) Reasonableness of Cost
As mentioned earlier, under CAA
section 111(a)(1), the EPA determines
‘‘the best system of emission reduction
which (taking into account the cost of
achieving such reduction . . .) . . . has
been adequately demonstrated.’’ 42
U.S.C. 7411(a)(1) (emphasis added). In
several cases, the D.C. Circuit has
elaborated on this cost factor in various
ways, stating that the EPA may not
adopt a standard for which costs would
be ‘‘exorbitant,’’ 177 ‘‘greater than the
industry could bear and survive,’’ 178
‘‘excessive,’’ 179 or ‘‘unreasonable.’’ 180
These formulations appear to be
synonymous and suggest a costreasonableness standard. Therefore, in
177 Lignite
Energy, 198 F.3d at 933.
Cement, 513 F.2d at 508.
179 Sierra Club, 657 F.2d at 343.
180 Id.
181 See page 21, ‘‘PSD and Title V Permitting
Guidance for Greenhouse Gases,’’ EPA–457/B–11–
001, March 2011; https://www.epa.gov/sites/
178 Portland
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this action, the EPA has evaluated
whether the costs of HRI are considered
to be reasonable as a general matter
across the fleet of existing sources.
Any efficiency improvement made by
an EGU will also reduce the amount of
fuel consumed per unit of electricity
output; fuel costs can account for a large
percentage of the overall costs of power
production. The cost attributable to CO2
emission reductions, therefore, is the
net cost of achieving HRIs after any
savings from reduced fuel expenses. So,
over some time period (depending
upon, among other factors, the extent of
HRIs, the cost to implement such
improvements, and the unit utilization
rate), the savings in fuel cost associated
with HRIs may be sufficient to cover the
costs of implementing the HRI
measures. Thus, the net costs of HRIs
associated with reducing CO2 emissions
from designated facilities can be
relatively low depending upon each
EGU’s individual circumstances. It
should be noted that this cost evaluation
is not an attempt to determine the
affordability of the HRI in a business or
economic sense (i.e., the reasonableness
of the imposed cost is not determined
by whether there is an economic
payback within a predefined time
period). However, the ability of EGUs to
recoup some of the costs of HRIs
through fuel savings supports a finding
that costs are reasonable. While some
EGUs may not realize the full potential
of cost recuperation from fuel savings,
the EPA finds that the net costs of
implementing HRIs as an approach to
reducing CO2 emissions from fossil fuelfired EGUs are reasonable because they
are not exorbitant or excessive. In fact,
these HRIs are the types of efficiency
improvement measures that some
owners and operators have reasonably
implemented at times over the course of
the operating life of their EGUs.
It will be up to the states to, either
directly or indirectly, take cost into
consideration in establishing unitspecific standards of performance. CAA
section 111(d) explicitly allows the
states to take into consideration, among
other factors, the remaining useful life
of the existing source in applying the
standard of performance. For example, a
state may find that an HRI technology is
production/files/2015-12/documents/ghgpermitting
guidance.pdf.
182 See page 25, ‘‘Available and Emerging
Technologies for Reducing Greenhouse Gas
Emissions from Coal-fired Electric Generating
Units,’’ October 2010; https://www.epa.gov/sites/
production/files/2015-12/documents/electric
generation.pdf.
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applicable for an affected coal-fired EGU
but find that the costs are not reasonable
when consideration is given to the
timeframe for the planned retirement of
the source (i.e., the source’s remaining
useful life). A state may find that an HRI
technology is applicable for an affected
coal-fired EGU but find that the costs
are not reasonable because the source is
already implementing that HRI
technology and it would not be
reasonable to expect the source to
replace that HRI technology with a
newer version of the same technology.
There are several ways that cost can
be considered. For example, when
evaluating costs for criteria pollutants in
a BACT analysis or for a ‘‘beyond-thefloor’’ analysis for HAP under CAA
section 112, the emphasis is focused on
the cost of control relative to the amount
of pollutant removed—a metric
typically referred to as the ‘‘costeffectiveness.’’ There have been
relatively few BACT analyses evaluating
GHG reduction technologies for coalfired EGUs. Therefore, there are not a
large number of GHG cost-effectiveness
determinations to compare against as a
measure of the cost reasonableness.
Nevertheless, in PSD and title V
permitting guidance for GHG emissions,
the EPA noted that ‘‘it is important in
BACT reviews for permitting authorities
to consider options that improve the
overall energy efficiency of the source or
modification—through technologies,
processes and practices at the emitting
unit. In general, a more energy efficient
technology burns less fuel than a less
energy efficient technology on a per unit
of output basis.’’ 181 The EPA has also
noted that a ‘‘number of energy
efficiency technologies are available for
application to both existing and new
coal-fired EGU projects that can provide
incremental step improvements to the
overall thermal efficiency.’’ 182
(2) Cost of the HRI Candidate
Technologies Measures
The estimated costs for the BSER
candidate technologies are presented
below in Table 2. These are cost ranges
from the 2009 Sargent & Lundy
Study 183 updated to $2016.184 These
costs correspond to ranges of HRI
(percent) presented earlier in Table 1.
183 ‘‘Coal-Fired Power Plant Heat Rate
Reductions’’ Sargent & Lundy report SL–009597
(2009) Available in the rulemaking docket at EPA–
HQ–OAR–2017–0355–21171.
184 The conversion factor comes from Federal
Reserve Economic Data (FRED). See https://
fred.stlouisfed.org.
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TABLE 2—SUMMARY OF COST ($2016/KW) OF HRI MEASURES
<200 MW
200–500 MW
>500 MW
HRI Measure
Min
Neural Network/Intelligent Sootblowers ...
Boiler Feed Pumps ..................................
Air Heater & Duct Leakage Control .........
Variable Frequency Drives ......................
Blade Path Upgrade (Steam Turbine) .....
Redesign/Replace Economizer ................
Max
4.7
1.4
3.6
9.1
11.2
13.1
Min
4.7
2.0
4.7
11.9
66.9
18.7
Improved O&M Practices .........................
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f. Non-Air Quality Health and
Environmental Impacts, Energy
Requirements, and Other Considerations
As directed by CAA section 111(a)(1),
the EPA has taken into account non-air
quality health and environment
requirements for each of the candidate
BSER technologies listed in Tables 1
and 2. None of the candidate
technologies, if implemented at a coalfired EGU, would be expected to result
in any deleterious effects on any of the
liquid effluents (e.g., scrubber liquor) or
solid by-products (e.g., ash, scrubber
solids). The EPA has also taken into
account energy requirements. All of
these candidate technologies, when
implemented, would have the effect of
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2.5
1.1
2.5
7.2
8.9
10.5
Min
2.5
1.3
2.7
9.4
44.6
12.7
Max
1.4
0.9
2.1
6.6
6.2
10.0
1.4
1.0
2.4
7.9
31.0
11.2
Minimal capital cost
These costs presented in Table 2
represent both capital and O&M costs.
Investments in HRI measures at EGUs
should also result in fuel savings which
can offset some or all of the cost of the
HRI. However, the EPA does not suggest
that HRI measures should meet any
particular economic criterion (e.g., pay
for themselves through reduced fuel
costs) in order to be applied in state
plans for the establishment of sourcespecific standards of performance.
The technical applicability and
efficacy of HRI measures and the cost of
implementing them are dependent upon
site specific factors and can vary widely
from site to site. Because there is
inherent flexibility provided to the
states in applying the standards of
performance, there is a wide range of
potential outcomes that are highly
dependent upon how the standards are
applied (and to what degree states take
into consideration other factors,
including remaining useful life).
Because the heat rate improvement
technologies result in fuel savings and
other potential cost savings and the
listed candidate technologies are the
types of improvements and equipment
upgrades that have been previously
undertaken, the EPA finds that the costs
of the HRI technologies and practices
that have been identified as the BSER
and provided in Table 1 are reasonable.
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Max
improving the efficiency of the coalfired EGUs to which they are applied.
As such, the EGU would be expected to
use less fuel to produce the same
amount of electricity as it did prior to
the efficiency (heat rate) improvement.
None of the candidate technologies is
expected to impose any significant
additional auxiliary energy demand.
Implementation of heat rate
improvement measures also would
achieve reasonable reductions in CO2
emissions from designated facilities in
light of the limited cost-effective and
technically feasible emissions control
opportunities. In the same vein, because
existing sources face inherent
constraints that new sources do not,
existing sources present different, and
in some ways more limited,
opportunities for technological
innovation or development.
Nevertheless, the final emissions
guidelines encourage technological
development by promoting further
development and market penetration of
equipment upgrades and process
changes that improve plant efficiency
leading to reasonable reductions in CO2
emissions.
3. Discussion of ‘‘Rebound Effect’’
At proposal, the EPA solicited
comment on potential CO2 emissions
and generation changes that might occur
as a result of efficiency improvements at
designated facilities, including potential
increased generation to the point of a
net increase in emissions from a
particular facility, also referred to as the
‘‘rebound effect.’’ In some instances, it
is possible that certain sources increase
in generation (relative to some baseline)
as a result of lower operating costs from
adoption of candidate technologies to
improve their efficiency. The EPA
conducted analysis and modeling for
the ACE proposal, and found that while
there were instances (in some scenarios)
where a limited number of designated
facilities that adopted HRI increased
generation to the point of increasing
mass emissions notwithstanding the
lower emissions rate resulting from HRI
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adoption, due to their improved
efficiency and marginally improved
economic competitiveness relative to
other electric generators, the designated
facilities as a group reduce emissions
because they can generate higher levels
of electricity with a lower overall
emission rate.
Some commenters on the proposed
rule highlighted environmental and
legal concerns with the rebound effect
as undermining the BSER, while others
commented that the concern was de
minimis, not rooted in any legal basis,
and not germane to establishing
standards of performance. On one side,
some commenters asserted that the
determined BSER is not properly
designed because it would not achieve
emission reductions if it results in
higher utilization and, therefore,
emission increases. Some doubted the
EPA claims of lower systemwide
emissions and said the EPA had not
adequately analyzed the concern. Some
asserted that the assumptions used in
the analysis do not reflect real world
considerations that efficiency of all
fossil fuel plants degrades over time,
rather than being static. Also, some
asserted that the EPA had understated
the amount of coal capacity that will
likely retire in its analysis, and, thus,
the remaining coal fleet will consist of
more efficient and competitive units
that may end up emitting more than the
EPA’s analysis shows. In addition, some
asserted that the EPA’s proposed NSR
reforms allow sources to extend
lifetimes without requiring controls,
exacerbating rebound issues.
Other commenters asserted that CAA
section 111 does not require the Agency
to obtain absolute reductions in
emissions at a sector-wide level, and the
EPA’s obligation is to determine the
BSER through evaluation of emissions
performance per output at the unitlevel. Some commenters stated that any
rebound effect from more efficient units
is most likely to come at expense of
lower-efficiency coal units, negating the
effect. Also, commenters contended that
rebound is unlikely to change the
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dispatch order and/or utilization of
units based upon the levels of HRI that
are reasonable and part of ACE, and,
thus, any rebound effect would be de
minimis.
The EPA agrees with the commenters
who do not see the rebound effect as
undermining the BSER determination in
this rule, because this rule is aimed at
improving a source’s emissions rate
performance at the unit-level. Indeed, in
repealing the ‘‘percent reduction’’
requirement from the 1977 CAA
Amendments, Congress expressly
acknowledged that standards of
performance were to be expressed as an
emissions rate.185 In addition, as noted
above, this rule results in overall
reductions of emissions of CO2. Because
the BSER in this rule improves the
emissions rate of designated facilities
and results in overall reductions, the
limited rebound effect that may occur
does not undermine the BSER.
Nonetheless, to the extent
commenters have asserted that ACE
would cause an increase in aggregate
CO2 emissions due to some sources
operating more, this concern is not
supported by our analysis. The EPA
conducted updated modeling and
analysis for the final ACE rule (see
Chapter 3 of the RIA for more details)
and confirmed that aggregate CO2
emissions from the group of designated
facilities are anticipated to decrease
(outweighing any potential CO2
increases related to increased generation
by certain units).
The final ACE rule establishes the
BSER, and a framework for states to
determine rate-based standards of
performance for designated facilities.
The BSER for ACE is expressed as a
rate-based approach, which should
necessarily result in rate-based emission
reductions. The modeling and analysis
show individual units and the entire
coal fleet reducing emission rates, as
well as an aggregate decrease in mass
emissions. As such, any potential
‘‘rebound effect’’ is determined to be
small and manageable (if necessary) and
does not require any specific remedy in
the final rule. However, if a state
determines that the source-specific
factors of a designated facility dictate
that the rebound effect is an issue that
should be considered in setting the
standard of performance, that is within
185 See 1990 CAA Amendments, section 403, 104
Stat. at 2631 (‘‘the Administrator shall promulgate
revised regulations for standards of performance
. . . that, at a minimum, require any source subject
to such revised standards to emit sulfur dioxide at
a rate not greater than would have resulted from
compliance by such source with the applicable
standards of performance under this section prior
to such revision’’) (emphasis added).
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the state’s discretion to consider in the
process of establishing a standard of
performance for that particular existing
source. As noted above and as a result
of modeling, the EPA does not expect
these considerations to be necessary in
the state plan development process.
4. Systems That Were Evaluated But Are
Not Part of the Final BSER
The EPA identified several systems of
GHG emission reduction that may be
applied at or to designated facilities but
did not propose that they should be part
of the BSER. The Agency solicited
comment on the rationale for
eliminating or not identifying those
alternative systems as part of the BSER.
After consideration of public comments,
the EPA is not revising its proposed
determination and is not including any
additional or different systems of
emission reduction in the final BSER
determination. A description of the
considered systems of emission
reduction that are not part of the final
BSER along with a summary of
significant public comments is provided
below.
The EPA previously considered cofiring (including 100 percent
conversion) with natural gas and
implementation of carbon capture and
storage (CCS) as potential BSER options.
See 80 FR 64727. In that analysis, the
EPA found some natural gas co-firing
and CCS measures to be technically
feasible but determined that switching
from coal to gas is ‘‘a relatively costly
approach to CO2 reductions at existing
coal steam boilers when compared to
other measures such as heat rate
improvements. . .’’ 186 and that the cost
to implement CCS for existing source
standards is not reasonable and that
‘‘CCS is not an appropriate component
of the [BSER].’’ 187 A more detailed
description of the current consideration
of these technologies is provided below.
a. Natural Gas Repowering
Coal-fired utility boilers can reduce
their emissions by firing natural gas
instead of—or in combination with—
coal. This can be done in three different
ways: (1) By repowering, (2) by cofiring, or (3) by refueling. Repowering is
when an existing coal-fired boiler is
replaced with one or more natural gasfired stationary combustion turbines,
while still utilizing the existing steam
186 Technical Support Document (TSD) for
Carbon Pollution Guidelines for Existing Power
Plants: Emission Guidelines for Greenhouse Gas
Emissions from Existing Stationary Sources:
Electric Utility Generating Units; Chapter 6, June
10, 2014, Available at Docket Item No. EPA–HQ–
OAR–2013–0602–36852.
187 Id. Chapter 7
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32543
turbines. Co-firing and refueling involve
the burning of natural gas at an existing
boiler.188
In the ACE proposal, the EPA did not
consider natural gas repowering as a
potential system of emission reduction
(i.e., as a candidate for the BSER) based
on the reasoning that this option would
fundamentally redefine the existing
sources subject to the rule.189 Some
commenters argued, however, that coalfired utility boilers can reduce
emissions through natural gas
repowering and it should be the BSER.
Other commenters argued that the
‘redefining the source’ concept from
PSD was inappropriate for application
to NSPS. After considering public
comments on this issue, the EPA
concludes that repowering should not
be considered for purposes of CAA
section 111(d). As described in more
detail below, repowering is not a
‘‘system’’ of emission reduction for a
source at all because it cannot be
applied to the existing sources subject to
this rule (steam generating units).
Rather, repowering these existing units
would replace them entirely with a
different type of source (stationary
combustion turbines) that would be
subject to the NSPS in 40 CFR part 60,
subpart TTTT.190 Even if repowering
were to be evaluated to determine if it
was part of the BSER, the EPA has
found non-air quality health and
environmental impacts and energy
requirements that demonstrate that
repowering is not part of the BSER.191
As described above, a ‘‘standard of
performance’’ under CAA section 111(d)
must be ‘‘establishe[d]’’ for an ‘‘existing
source.’’ However, repowering a coalfired boiler—that is, the replacement of
a boiler with a stationary combustion
turbine—creates a ‘‘new source,’’ which
is regulated directly by the EPA under
40 CFR part 60, subpart TTTT
(establishing standards for the control of
GHG emissions from new, modified, or
reconstructed steam generating units,
IGCCs, or stationary combustion
turbines). The ‘‘best system of emission
reduction’’ for an existing source,
188 Co-firing and refueling are discussed in
section III.E.4.b of this preamble.
189 See 83 FR 44753.
190 The EPA is not concluding whether or not the
‘redefining the source’ concept can or should be
applied in the context of the NSPS program.
191 These non-air quality health and
environmental impacts and energy requirements are
discussed in more detail below in the discussion of
refueling and co-firing. Except to the extent that
discussion involves the inefficient combustion of
natural gas, the non-air quality health and
environmental impacts and energy requirements
found for these technologies are similar, if not
identical, to those the EPA has found for
repowering.
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therefore, simply cannot be the creation
of a new source that is regulated under
separate authority. Otherwise, the EPA
could subvert the provisions of CAA
section 111(d) (which authorizes states
to regulate existing sources in the first
instance) and require all existing
sources to transform into ‘‘new
sources,’’ which the Agency can directly
regulate under CAA section 111(b).
Therefore, repowering a coal-fired boiler
is not a ‘‘system’’ within the scope of
the BSER.
b. Natural Gas Co-Firing and Refueling
Some coal-fired utility boilers use
natural gas or other fuels (such as
distillate fuel oil) for startup operations,
for maintaining the unit in ‘‘warm
standby,’’ or for NOX control (either
directly as a combustion fuel or in
configuration referred to as natural gas
reburn). During such periods of natural
gas co-firing, an EGU’s CO2 emission
rate is reduced as natural gas is a less
carbon intensive fuel than coal. For
example, at 10 percent natural gas cofiring, the net emissions rate (lb/MWhnet) of a typical unit could decrease by
approximately 4 percent.
Commenters stated that the EPA
should determine that natural gas cofiring is the BSER because it is
technically feasible, readily available,
achieves significant emission
reductions, and may be the most costeffective option for some facilities.
Some commenters also provided data
(from EIA) to assert that co-firing is
widely used and adequately
demonstrated at coal-fired EGUs. The
commenters contended that a significant
number of coal-fired EGUs have the
capacity to burn both natural gas and
coal. One commenter asserted that 35
percent of coal-fired utility boilers
across 33 states co-fired with natural
gas. Another commenter provided a
table listing coal-fired EGUs that have
recently converted to natural gas or are
co-firing with natural gas. One
commenter cited data from the EIA and
claimed that 48 percent of steam
generating EGUs are already co-firing
some amount of natural gas.
While the EPA agrees with the
assertion that there are existing coal
plants that have some access to a supply
of natural gas, the EPA disagrees that
the data demonstrate that co-firing is a
system of emission reduction that has
been or that could be implemented on
a nationwide scale at reasonable cost.
The EPA believes that commenters have
conflated operational co-firing (i.e., cofiring coal and natural gas to generate
electricity) with startup co-firing (i.e.,
only using natural gas to heat up a
utility boiler or to maintain temperature
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during standby periods). Coal-fired
boilers always use a secondary fuel
(most often natural gas or distillate fuel
oil), utilizing burners specifically
configured to bring the boiler from a
cold, non-operating status to a
temperature where coal, the primary
fuel, can be safely introduced for normal
operations.
The EPA conducted its own analysis
using EIA fuel use data from 2017.192
The EPA’s analysis supports the
assertion that nearly 35 percent of coalfired units co-fired (in either sense of
co-firing as described above) with
natural gas in 2017. However, very
few—less than four percent of coal-fired
units—co-fired with natural gas in an
amount greater than five percent of the
total annual heat input. This strongly
suggests that most of the natural gas that
was utilized at these sites was used as
a secondary fuel for unit startup or to
maintain the unit in ‘‘warm standby’’
rather than as a primary fuel for
generation of electricity. Further, the
small number of units that co-fired with
greater than five percent natural gas
during 2017 operated at an average
capacity factor of only 24 percent—
indicating that they are not the most
economical units and are not dispatched
as frequently as those units that used
less than five percent natural gas. For
comparison, in 2017, 62 percent of coalfired utility boilers co-fired with some
amount of distillate fuel oil and, as with
natural gas, the vast majority of those
units used less than 5 percent distillate
fuel oil (again, strongly suggesting that
it is primarily used as a secondary fuel
for startup and warm standby).
The EPA also disagrees that the data
demonstrate that co-firing can be
considered at the national level as an
adequately demonstrated system of
emission reduction and that there are
easy paths to expand it at a reasonable
cost. The EIA 923 fuel use data
indicated that about 65 percent of coalfired utility boilers use something other
than natural gas as the secondary fuel
for periods of startup and standby
operations. Distillate fuel oil is by far
the most commonly used secondary
fuel. While the use of distillate fuel oil
does not necessarily mean that the unit
lacks access to natural gas, it suggests
that for many of those units, there is an
inadequate supply to serve even as a
secondary fuel for startup and standby
operations. The 2018 average price 193 of
192 See the memorandum ‘‘2017 Fuel Usage at
Affected Coal-fired EGUs,’’ available in the
rulemaking docket (Docket ID No. EPA–HQ–OAR–
2017–0355).
193 The 2018 average U.S. power generation fuel
costs for natural gas was $3.52 per million Btu
while the cost for distillate fuel oil for power
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distillate fuel oil was more than four
times higher than that of natural gas; so,
if there was an adequate supply of
natural gas, then it would be much more
economically favorable to utilize that
natural gas rather than the much more
expensive distillate fuel oil. As
explained earlier, for plants that require
additional or new pipeline capacity, the
capital cost of constructing new
pipeline laterals is approximately $1
million per mile of pipeline built.
Therefore, a 50-mile gas pipeline would
add $50 million—$100/kW for a typical
500 MW unit—to the capital costs of
adding co-firing capability.
As mentioned earlier, the EPA has
previously evaluated the costs
associated with using natural gas
refueling or co-firing as a GHG
mitigation option. See 79 FR 34875. For
a typical base-load coal-fired EGU, the
average cost of CO2 reductions achieved
through co-firing with 10 percent
natural gas would be approximately
$136 per ton of CO2. While a utility
boiler that is converted to 100 percent
natural gas-fired can offset some of the
capital costs by reducing its fixed
operating and maintenance costs
(though, as discussed below, the costs
would still be considerably higher than
the HRI technologies that the EPA
identified as the BSER), a unit that is cofiring natural gas with coal would
continue to bear the fixed costs
associated with equipment needed for
coal combustion, raising the cost per ton
of CO2 reduced.
In determining the BSER, CAA
section 111(a)(1) also directs the EPA to
take into account non-air quality health
and environmental impacts and energy
requirements. The EPA is unaware of
any significant non-air quality health or
environmental impacts associated with
natural gas co-firing. However, in taking
energy requirements into account, the
EPA notes that co-firing natural gas in
coal-fired utility boilers is not the best
or most efficient use of natural gas and,
as noted above, can lead to less efficient
operation of utility boilers. NGCC
stationary combustion turbine units are
much more efficient at using natural gas
as a fuel for generating electricity and it
would not be an environmentally
positive outcome for utilities and
owner/operators to redirect natural gas
from the more efficient NGCC EGUs to
the less efficient utility boilers to satisfy
an emission standard at the utility
boiler. Some commenters disagreed
with the EPA’s claim that increased use
of natural gas in a utility boiler would
generation was $16.13 per million Btu. U.S. EIA
Short Term Energy Outlook, https://www.eia.gov/
outlooks/steo/tables/pdf/2tab.pdf.
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come at the expense of its use in more
efficient NGCC units. The EPA did not
intend to imply that there is now (or
that there will be) a restricted supply of
natural gas. Instead, the EPA suggested
that, if there were to be an increase in
the use of natural gas, the more efficient
use for that increased natural gas would
be as fuel for under-utilized NGCC units
rather than in less efficient utility
boilers. The EPA does not believe that
establishing a BSER that, for all
practical purposes, would mandate
increased use of natural gas in utility
boilers is good policy.
Given that a natural gas co-firingbased BSER would result in standards
that are more costly than standards
based on application of the candidate
technologies for heat rate
improvements, that such a BSER would
encourage inefficient use of natural gas,
that implementation would be even
more expensive and challenging for
those units that currently have limited
or no access to natural gas, the EPA
concludes that co-firing natural gas in
coal-fired boilers is not the BSER.
Some commenters requested that cofiring be added to the list of HRI
candidate technologies (discussed in
more detail below), the combination of
which would represent the BSER.
However, whereas all coal-fired utility
boilers can apply (or have already
applied) HRI measures, natural gas cofiring does not satisfy the same CAA
section 111(a)(1) criteria (see above).
Moreover, co-firing can negatively
impact a unit’s heat rate (efficiency) due
to the high hydrogen content of natural
gas and the resulting production of
water as a combustion by-product.194
And depending on the design of the
boiler and extent of modifications, some
boilers may be forced to de-rate (a
reduction in generating capacity) to
maintain steam temperatures at or
within design limits, or for other
technical reasons. Accordingly, natural
gas co-firing cannot be applied in
combination with the HRI measures
identified as the BSER. However,
natural gas co-firing might be
appropriate for certain sources as a
compliance option. For a discussion of
compliance options, see below section
III.F.2.
Some commenters also suggested that
the EPA’s concerns about using gas
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194 Natural
gas firing or co-firing degrades the
boiler’s efficiency (relative to the use of coal)
primarily due to the increased production of water.
Some of the heat that is produced in the
combustion process will be used to heat that flue
gas moisture (which will exit with the stack gases)
rather than to converting water in the boiler tubes
to steam. The efficiency declines because there is
less heat available to produce useful steam.
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inefficiently were not persuasive
because the United States has such an
abundant supply of natural gas. The
EPA disagrees for many of the same
reasons that the Agency relied upon to
reject the consideration of natural gas as
the BSER. First, it is on the higher end
of the cost of the measures the EPA
considered even for units with ready
natural gas availability; second, many
designated facilities do not have natural
gas availability, so it is not broadly
applicable.
The same factors discussed above lead
the Agency to conclude that refueling
also cannot be BSER. Refueling is when
an existing coal-fired boiler is converted
to a natural gas-fired boiler (i.e., firing
100% natural gas). In the ACE proposal,
the EPA did not consider natural gas
refueling as a potential system of
emission reduction (i.e., as a candidate
for the BSER) based on the reasoning
that this option would fundamentally
redefine the existing sources subject to
the rule.195 Some commenters argued,
however, that coal-fired utility boilers
can reduce emissions through natural
gas refueling and should be the BSER.
Other commenters argued that the
‘redefining the source’ concept from
PSD was inappropriate for application
to NSPS.196 After considering public
comments on this issue, the EPA
concludes that natural gas refueling, like
natural gas co-firing, is not the BSER.
The EPA has previously evaluated the
costs associated with using natural gas
refueling or co-firing as a GHG
mitigation option.197 The capital costs
of plant modifications required to
switch a coal-fired EGU completely to
natural gas are roughly $100–300/kW,
not including any costs associated with
constructing additional pipeline
capacity. Many coal-fired plants do not
have immediate and ready access to any
supply of natural gas. Others that do
have access to a supply of natural gas
have only a limited supply (i.e., enough
for startup and warm standby firing, but
not enough for full load firing). For
plants that require additional pipeline
capacity, the capital cost of constructing
new pipeline laterals is approximately
$1 million per mile of pipeline built. A
50-mile gas pipeline would add $50
million—$100/kW for a typical 500 MW
unit—to the capital costs of the
conversion.
While a coal-fired utility boiler that is
converted to a 100 percent natural gasfired boiler could offset some of the
83 FR 44753.
with repowering, the EPA is not
concluding whether or not the ‘‘redefining the
source’’ concept can or should be applied in the
context of the NSPS program.
197 See 79 FR 34875.
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195 See
196 As
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capital costs by reducing its fixed
operating and maintenance costs, in
most cases, the most significant cost
change associated with switching from
coal to gas is likely to be the difference
in fuel cost. Using the EIA’s projections
of future coal and natural gas prices,
switching a utility boiler from coal-fired
to natural gas-fired could more than
double the unit’s fuel cost per MWh of
generation. For a typical base-load coalfired EGU, the average cost of CO2
reductions achieved through gas
conversion would be approximately $75
per ton of CO2. This cost could also be
much higher as there would very likely
be an increase in natural gas prices
corresponding to the increased demand
from widespread coal-to-gas conversion.
The EPA also found that
consideration of energy requirements (as
required by CAA section 111(a)(1))
provides additional reasons why
refueling natural gas in a utility boiler
should not be considered BSER.198
Burning natural gas in a utility boiler is
not the best use of such fuel as it is
much less efficient than burning it in a
combustion turbine. New natural gas
combined cycle (NGCC) units can
convert the heat input from natural gas
to electricity with an efficiency of more
than 50 percent.199 A coal-fired utility
boiler that is repurposed to burn 100
percent natural gas will see a reduction
in efficiency of up to five percent (to
less than 40 percent efficiency) as the
higher hydrogen content in the natural
gas fuel will lead to higher moisture
losses that will negatively impact the
boiler efficiency.200 Widespread
refueling is not a practice that the EPA
should be promoting as it is not the
most efficient use of natural gas.
Utilities choosing to increase use of
natural gas in a combined cycle or
simple cycle combustion turbine is a
more efficient way to utilize natural gas
for electricity generation. In reaching
this determination, the EPA is mindful
of Congress’s direction to ‘‘tak[e] into
account . . . energy requirements’’ in
determining the best system of emission
reduction in CAA section 111(a)(1).
Consideration of ‘‘energy requirements’’
is one of the factors informing the EPA’s
judgment that it would be inappropriate
to base performance standards on an
198 See
83 FR 44762.
and Performance Baseline for Fossil
Energy Plants Volume 1a: Bituminous Coal (PC) and
Natural Gas to Electricity’’ Rev. 3, DOE/NETL–
2015/1723 (July 2015).
200 ‘‘Leveraging Natural Gas: Technical
Considerations for the Conversion of Existing CoalFired Boilers’’, Babcock Power Services, Presented
at 2014 ASME Power Conference (July 2014),
Baltimore, MD. Available in the rulemaking docket.
199 ‘‘Cost
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inherently energy-inefficient practice
such as refueling.
NGCC units have become the
preferred option for intermediate and
baseload natural gas power generation.
Other technologies (such as simple
cycle aeroderivative turbines) offer
significant advantages for peaking
purposes in that they can start up
quickly and require fewer staff to
operate. Some combination of
aeroderivative turbines and flexible
combined cycle units offer advantages
in both efficiency and the flexibility to
change loads when compared to utility
boilers. For these reasons, the power
sector has moved away from the use of
gas-fired boilers. There have been no
new natural gas-fired utility boilers built
since the 1980s.
There have been some cases where
coal-fired utility boilers have chosen to
refuel (i.e., have chosen to convert to
natural gas-firing). In those cases, the
motivation was largely to preserve
reserve capacity without investing in
the air pollution controls needed to
meet air emission standards—especially
MATS.201 The EPA examined fuel use
data submitted by plant owner/
operators to the U.S. Energy Information
Administration (EIA) on Form 923.202
According to that data, there were 131
natural gas-fired utility boilers 203 in
2012 and 170 such units in 2017. The
average capacity factor for those units
was only 11 percent in 2012 and 2017.
Between 2012 (before the MATS
compliance date) and 2017 (after MATS
was fully in effect), 39 utility boilers
converted from coal-fired units to
become natural gas-fired utility boilers.
Those natural gas-fired utility boilers
operated at an average capacity factor of
less than 10 percent, indicating that
they were likely utilized only during
periods of high demand.
These non-air quality health and
environmental impacts and energy
requirements demonstrate that refueling
is not the BSER.
c. Biomass Co-Firing
The EPA previously proposed that cofiring of biomass in coal-fired utility
boilers is not the BSER for existing fossil
fuel-fired sources due to cost and
achievability considerations.204
201 See
40 CFR part 63, subpart UUUUU.
fuel use data is submitted to the EIA
on Form 923. Available at https://www.eia.gov/
electricity/data/eia923/. For details of the EPA data
analysis, see the memorandum ‘‘2017 Fuel Usage at
Affected Coal-fired EGUs’’ available in the
rulemaking Docket ID No. EPA–HQ–OAR–2017–
0355.
203 Natural gas-fired utility boilers are those with
capacity of more than 25 MW that use more than
90 percent natural gas on a heat input basis.
204 See ACE proposal and 80 FR 64756.
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202 Monthly
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Although biomass co-firing methods are
technically feasible and can be costeffective for some designated facilities,
these factors and others (namely, that
any potential net reductions in
emissions from biomass use occur
outside of the regulated source and are
outside of the control of the designated
facility, which is incompatible with the
interpretation of the EPA’s authority
and the permissible scope of BSER as
set forth in section II above) are the
considerations that prevent its adoption
as the BSER for the source category.
In the ACE proposal, the EPA sought
comment on the inclusion of forestderived and non-forest biomass as nonBSER compliance options for affected
units to meet state plan standards.205 In
response, the EPA received comments
both supporting and opposing the use of
biomass for compliance (as discussed in
section III.F.2.b); however, commenters
also spoke to the appropriateness of
including biomass firing as part of the
BSER. Some commenters noted that cofiring with biomass cannot be a ‘‘system
of emission reduction’’ as it increases
CO2 emissions at the source.
Commenters further asserted that the
EPA has failed to demonstrate how
firing biomass meets the CAA section
111 requirements and the criteria for
qualifying as a system of emission
reduction described in the Proposed
Repeal and the ACE proposal.
Upon consideration of comments and
in accordance with the plain language of
CAA section 111 (discussed above in
section II.B), the EPA is now clarifying
that biomass does not qualify as a
system of emission reduction that can
be incorporated as part of, or in its
entirety, as the BSER. As described in
section III.F.2 of this preamble. the
BSER determination must include
systems of emission reduction that are
achievable at the source. While the
firing of biomass occurs at a designated
facility, biomass firing in and of itself
does not reduce emissions of CO2
emitted from that source. Specifically,
when measuring stack emissions,
combustion of biomass emits more mass
of emissions per Btu than that from
combustion of fossil fuels, thereby
increasing CO2 emissions at the source.
Recognition of any potential CO2
emissions reductions associated with
biomass utilization at a designated
facility relies on accounting for
activities not applied at and largely not
under the control of that source,
including consideration of offsite
terrestrial carbon effects during biomass
fuel growth, which are not a measure of
emissions performance at the level of
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205 See
83 FR 44766.
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the individual designated facility. Use
of biomass in affected units is therefore
not consistent with the plain meaning of
‘‘standard of performance’’ and cannot
be considered as part of the BSER.206
Additionally, many commenters
agreed with the ACE proposal that
biomass co-firing should not be part of
the BSER because it is not sufficiently
cost-effective, there is not a reliable
supply of biomass fuel accessible
nationally, co-firing with biomass has a
negative impact on unit heat rate, and
co-firing requirements would ‘‘redefine
the source.’’ Many commenters
supported inclusion of fuel co-firing as
a component of the BSER but focused
primarily on argument for natural gas
co-firing (as discussed earlier). Some of
these commenters specifically asserted
that biomass use is a widely available
and proven GHG reduction technology.
As discussed by the EPA previously
in the ACE proposal and other
instances,207 biomass fuel use
opportunities are dependent upon many
regional considerations and
limitations—namely fuel supply
proximity, reliability and cost—that
prevent its adoption as BSER on a
national level (whereas nearly all
sources can or have implemented some
form of HRI measures). The
infrastructure, proximity, and cost
aspects of co-firing biomass at existing
206 Notwithstanding this conclusion in the
context of CAA section 111(d), the EPA believes
that a PSD permitting authority may still reach the
conclusion that use of some type(s) of biomass is
BACT for greenhouse gases in the context of a PSD
permit application where the applicant proposes to
use biomass, as discussed in the EPA’s Guidance for
Determining Best Available Control Technology for
Reducing Carbon Dioxide Emissions from
Bioenergy Production (March 2011). While biomass
combustion may result in more greenhouse gas
emissions (in particular CO2) per unit of production
than combustion of fossil fuels, a comparative
analysis of biomass and other fuels may not be
required in the BACT context. As EPA has
observed, ‘‘where a proposed bioenergy facility can
demonstrate that utilizing a particular type of
biogenic fuel is fundamental to the primary purpose
of the project, then at the first step of the top-down
process, permitting authorities can rely on that to
determine that use of another fuel would redefine
the proposed source.’’ Bioenergy BACT Guidance at
15. Moreover, even if biomass is compared to fossil
fuels and ranked lower at Step 3 of a top-down
BACT analysis, broader offsite environmental,
economic, and energy considerations related to
biomass use (e.g., any potential offsite net carbon
sequestration associated with growth of the biomass
feedstock) may be considered in Step 4 of a topdown BACT analysis. See Bioenergy BACT
Guidance at 20–21. It is therefore consistent to
determine that the firing of biomass does not
qualify as a ‘‘standard of performance’’ for setting
or complying with the BSER because it does not
reduce the GHG emissions of a fossil fuel-fired
source, while also allowing the consideration of any
potential offsite environmental, economic, or
energy attributes when considering an application
that treats biomass as BACT for a proposed biomass
facility in the PSD permitting context.
207 See 80 FR 64756.
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coal EGUs are similar in nature and
concept to those of natural gas. While
there are a few existing coal-fired EGUs
that currently co-fire with biomass fuel,
those are in relatively close proximity to
cost-effective biomass supplies.
Therefore, even if biomass firing could
be considered a ‘‘system of emission
reduction,’’ the EPA is not able to
include the use of biomass fuels as part
of the BSER in this action due to the
current cost and achievability
considerations and limitations
discussed above. Additional discussion
on biomass is provided in section
III.F.2.b. below.
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d. Carbon Capture and Storage (CCS) 208
In the ACE proposal, the EPA noted
that while CCS is an advanced emission
reduction technology that is currently
under development, the Agency must
balance the promotion of innovative
technologies against their economic,
energy, and non-air quality health and
environmental impacts. The EPA
proposed that neither CCS nor partial
CCS are technologies that can be
considered the BSER for existing fossil
fuel-fired EGUs and explicitly solicited
comment on any new information
regarding the availability, applicability,
costs, or technical feasibility of CCS
technologies.
Many commenters agreed with EPA’s
proposed finding that CCS (including
partial CCS) should not be part of the
BSER. The commenters stated that it is
not adequately demonstrated,
sufficiently cost-effective, or nationally
available. Other commenters disagreed
and claimed that CCS is technically
feasible and adequately demonstrated
and should be part of BSER, asserting
that the EPA has previously provided
evidence in the record during the 2016
denial of petitions for reconsideration of
the CPP that CCS had been successfully
implemented at power plants.
Commenters also asserted that there are
many vendors that offer carbon capture
technologies for power plants, which
demonstrates that the technology is
commercially available and adequately
demonstrated.
CCS is a difficult and complicated
process, requiring numerous pieces of
process equipment to capture CO2 from
the exhaust gas, compress it for
transport, transport it in a CO2 pipeline,
208 CCS is sometimes referred to as Carbon
Capture and Sequestration. It is also sometimes
referred to as CCUS or Carbon Capture Utilization
and Storage (or Sequestration), where the captured
CO2 is utilized in some useful way and/or
permanently stored (for example, in conjunction
with enhanced oil recovery). In this document, the
EPA considers these terms to be interchangeable
and for convenience will exclusively use the term
CCS.
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inject it, and then monitor the injection
space to ensure the CO2 remains stored.
Currently there are only two large-scale
commercial applications of postcombustion CCS at a coal-fired power
plant—the Boundary Dam project in
Saskatchewan, Canada and the Petra
Nova project at the W.A. Parish plant
near Houston, Texas.209 Commenters
noted that both of the demonstration
projects were heavily subsidized by
government support and were able to
generate additional income from the
sale of captured CO2 for enhanced oil
recovery (EOR) and, without these
subsidies, neither project would have
been economically viable.
Commenters addressed the cost of
installing CCS on an existing coal-fired
EGU and noted that it can be much
costlier and more technically
challenging to retrofit the technology to
an existing EGU as compared to
installation on a newly constructed unit
(where the system can be incorporated
into the design and space allocation of
the new plant). Other commenters
claimed that CCS can achieve
significant emission reductions (up to
90 percent), that there is opportunity for
some sources to generate income from
the sale of captured CO2, and that there
are additional financial incentives from
the recently approved 2018 Internal
Revenue Code (IRC) section 45Q tax
credits for stored CO2, so now CCS may
be more cost-effective than HRI options
for some facilities. One commenter
performed modeling runs that included
the section 45Q tax credit and found
that, for some sources, CCS would
provide much greater emission
reductions than HRI options at a
reasonable cost and concluded that the
EPA should include CCS as part of the
BSER. Other commenters minimized the
impact of the section 45Q tax credit for
a variety of reasons.
Several commenters claimed that
access to appropriate CO2 storage
locations is critical to the feasibility and
cost of CCS. They described the
geographic limitations of both deep
saline aquifers and depleted oil fields
(EOR fields) noting that 15 states have
little or no demonstrated storage
capacity or have very limited storage
209 Several commenters noted that the Petra Nova
project received funding from the U.S. Department
of Energy (DOE) through the Clean Coal Power
Initiative and stated that the project is, pursuant to
section 402(i) of the Energy Policy Act of 2005
(EPAct05), therefore, precluded from being used to
demonstrate that the technology is ‘‘adequately
demonstrated’’ under section 111 of the CAA. Some
commenters noted that the DOE funding was only
for the initial 60 MW slip-stream demonstration
project, but the CCS project at Petro Nova was later
expanded to a 240 MW slip-stream and no federal
funding was received for this expansion.
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capacity and that EOR sites are similarly
geographically limited, with 19 states
having little or no demonstrated EOR
opportunity. However, other
commenters claimed that a technology
need not be feasible at every site to be
a component of BSER especially since
the EPA is relying on site-specific
analyses. The commenters noted that
not all HRI options are applicable to
every source, so the EPA cannot
disregard CCS from the BSER options
based on ‘‘national availability.’’
Commenters noted that 60 GW (or
about 20 percent) of the coal-fired
power plant capacity might be amenable
to CCS based on locality and that North
America has widespread and abundant
geologic storage options with the
capacity to sequester over 500 years of
the U.S.’s current energy-related CO2
emissions. Commenters claimed that 90
percent of existing coal-fired power
plants are within 100 miles from the
center of a basin with adequate storage
capacity and more than half of the
existing plants are less than 10 miles
from the center of a basin.
The EPA has considered all these
public comments and has concluded
that, as proposed, CCS is not the BSER
for emissions of CO2 from existing coalfired EGUs—nor does it constitute a
component of the BSER, as some
commenters have suggested. As
discussed in section III.E.1, above,
concerning the ‘‘guiding principles’’ for
identifying the BSER under CAA section
111(d), the BSER is based on what is
adequately demonstrated and broadly
achievable across the country. Under
CAA section 111(b)(1), the EPA
determines ‘‘standards of performance’’
for new sources and under section
111(d)(1), the states determine
‘‘standards of performance’’ for existing
sources within their jurisdiction.
Importantly, the term ‘‘standard of
performance’’ is given a uniform
definition under section 111(a)(1) for
purposes of both new and existing
sources, and, in accordance with that
definition, the Administrator is required
to determine the BSER as a predicate for
the standards of performance for both
new and existing sources. In this
manner, the text and structure of section
111 indicate that the EPA must make
the BSER determination at the national,
source-category level. Thus, the EPA
disagrees with the commenters who
argue that because the EPA is
emphasizing that standard setting will
be done on a unit-by-unit (rather than
fleetwide) basis, all viable emission
reduction options should be evaluated
at the unit level.
Whereas HRI measures are broadly
applicable to the entire existing coal-
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fired power plant fleet, the EPA
determines that CCS or partial CCS is
not. The EPA agrees that there may be
some existing coal-fired EGUs that find
the application of CCS to be technically
feasible and an economically viable
control option, albeit only under very
specific circumstances. However, the
high cost of CCS, including the high
capital costs of purchasing and
installing CCS technology and the high
costs of operating it, including high
parasitic load requirements, prevent
CCS or partial CCS from qualifying as
BSER on a nationwide basis.
According to the DOE National
Energy Technology Laboratory (NETL),
the incremental cost from capital
expenditures alone of installing partial
or full capture CCS 210 on a new coalfired EGU ranged from $626 (for 16%
capture) to $2,098 (for full capture) per
kW (2011 dollars).211 These costs are for
new CCS equipment installed on a new
facility, but they fairly represent the
costs of new CCS equipment installed
on an existing facility; indeed, these
costs are probably lower than the actual
costs of installing new CCS equipment
on an existing facility, because the costs
of retrofitting pollution controls on an
existing facility generally are greater
than the costs of installing pollution
controls on a new facility. In contrast,
as noted elsewhere, the cost of the HRI
that constitute the BSER for this rule
range from $25–$47 per kW (2016
dollars). Thus, the costs of partial CCS,
considering only the capital costs and
not the operating costs, are far higher
than—more than 13 times—the cost of
what the EPA has identified as the
BSER.
Viewing the costs of CCS through
other prisms yields the same
determination. According to NETL, the
capital costs of a CCS system with 90
percent capture increases the cost of a
new coal-fired power plant
approximately 75 percent relative to the
cost of constructing a new coal-fired
power plant without post-combustion
control technology. Furthermore, the
additional auxiliary load required to
support the CCS system consumes
approximately 20 percent of the power
plant’s potential generation.212 The
210 Full capture is considered to occur when 100
percent of the flue gas is treated, resulting in a 90
percent reduction in emissions of CO2 relative to
a power plant without carbon capture.
211 ‘‘Cost and Performance Baseline for Fossil
Energy Plants Supplement: Sensitivity to CO2
Capture Rate in Coal-Fired Power Plants,’’ une 22,
2015; DOE/NETL–2015/1720 https://
www.netl.doe.gov/projects/files/[FR
Doc.SupplementSensitivitytoCO2CaptureRatein[FR
Doc.CoalFiredPowerPlants_062215.pdf.
212 A CCS system requires both auxiliary steam
and electricity to operate. According to NETL, a full
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NETL Pulverized Coal Carbon Capture
Retrofit Database tool (April 2019) 213
estimates that the operating costs of
existing coal-fired EGUs range from 22
to 44 $/MWh.214 The incremental
increase in generating costs, including
the recovery of capital costs over a 30year period, due to CCS range from 56
to 77 $/MWh.215 For reference,
according to the EIA, the average
electricity price for all sectors in March
of 2019 was 103.8 $/MWh.216 About 60
percent of these latter costs (60 $/MWh)
are associated with generation and 40
percent with transmission and
distribution of the electricity.217 Thus,
the incremental increase in generating
costs due to CCS by itself would equal
or exceed the average generation cost of
electricity for all sectors. The costs of
partial CCS are less than full CCS, but
due to economies of scale, costs do not
reduce as quickly as reductions in the
capture rate. For example, the capital
costs of treating only 18 percent of the
flue gas (a 16 percent reduction in
emissions of CO2) are about 30 percent
of the capital costs of treating all of the
flue gas (full capture or a 90 percent
reduction in emissions of CO2).
Similarly, at full capture, treating only
18 percent of the flue gas (a 16 percent
reduction in emissions of CO2) still
increases the cost of electricity by about
28 percent of the increase that results
from treating all of the flue gas.218
Again, these costs are probably lower
than the actual costs of installing new
CCS equipment on an existing facility.
Not only are these costs far higher than
what the EPA has identified as the
capture system consumes 53 MW of direct electrical
load and steam that could have otherwise been used
to generate approximately 86 MW of electricity.
213 https://www.netl.doe.gov/energy-analysis/
details?id=2949.
214 Existing coal-fired power plants have
generally already paid off the initial construction
(i.e., capital) expenses.
215 Variable operating costs represent
approximately $15/MWh and the remaining costs
are recovered capital over a 30-year period. The
capital costs assume the power plant can recover
the costs over 30 years. If the actual remaining
useful life of the power plant itself is less, the costs
would be higher because the capital would have to
be recovered over a shorter time period. The
average age of the remaining coal fleet is
approximately 42 years, and the average age of
retirement for coal-fired power plants is currently
54 years (https://www.americaspower.org/wpcontent/uploads/2018/03/Coal-Facts-August-312018.pdf). Therefore, a significant portion of the
existing coal-fired will likely retire in less than 30
years.
216 https://www.eia.gov/electricity/monthly/epm_
table_grapher.php?t=epmt_5_6_a.
217 https://www.eia.gov/outlooks/aeo/data/
browser/#/?id=8-AEO2019&cases=ref2019&
sourcekey=0.
218 ‘‘Cost and Performance Baseline for Fossil
Energy Plants Supplement: Sensitivity to CO2
Capture Rate in Coal-Fired Power Plants,’’ June 22,
2015; DOE/NETL–2015/1720.
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BSER, they would almost certainly force
the closure of the coal-fired power
plants that would be required to install
them. Many of those plants have a
marginal profit margin, as demonstrated
by the high rate of plant closure and the
relatively low amounts of operation (i.e.,
capacity factors) in recent years. Thus,
these costs must be considered
exorbitant. See section III.E.1. for a
discussion of the guiding principles in
determining the BSER.
As noted above, the Boundary Dam
project in Saskatchewan, Canada and
the Petra Nova project at the W.A.
Parish plant near Houston, Texas are the
only large-scale commercial
applications of post-combustion CCS at
a coal-fired power plant. They both have
retrofit CCS or partial CCS, and they
both received significant governmental
subsidies—including, for the Petra Nova
project, both direct federal grants from
the DOE through the Clean Coal Power
Initiative and the IRC section 45Q tax
credits—and relied on nearby EOR
opportunities. Due to the high costs of
CCS, all of these subsidies and EOR
opportunities were essential to the
commercial viability of each project.219
Some commenters have asserted that
the costs of CCS are reasonable and
explain, as a central part of their
assertion, that the availability of tax
credits under section 45Q, as revised by
the Bipartisan Budget Act of 2018,
significantly lowers the costs of CCS. In
fact, they have asserted, that the tax
credits, which have an initial value of
$35 per tonne (i.e., metric ton) for CO2
stored through EOR, offset about 70% of
the cost of CCS, with EOR offsetting the
rest.220 However, the section 45Q tax
credits are limited in time: The credit
for equipment placed in service after the
date of enactment of the Bipartisan
Budget Act of 2018 is available, in
general, only for facilities and
equipment for which construction
begins before January 1, 2024. IRC
section 45Q(d)(1). Under the present
rule, state plans are not required to be
submitted until mid-2022 and the states
have the authority to determine their
sources’ compliance schedule;
compliance schedules are generally
expected to last 24 months (i.e., until
mid-2024), but could in some instances
be longer, as noted in preamble section
219 The EPA discussed the government funding
and the EOR revenue from the transport of captured
CO2 to the Hilcorp’s West Ranch Oil Field in
‘‘Standards of Performance for Greenhouse Gas
Emissions from New, Modified, and Reconstructed
Stationary Sources: Electric Generating Units,’’ 80
FR 64510, 64551 (October 23, 2015).
220 EPA–HQ–OAR–2017–0355–24266 at 18.
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III.F.1.a.(2).221 In order for sources to
implement CCS and be able to rely on
the 45Q tax credit, they would have to
complete all planning, including
arranging all financing, preconstruction
permitting, and commence construction
within about 18 months (by December
31, 2023) of the state plan submittal.
The EPA considers that timetable to be
impracticably short for most sources,
considering the complexity of
implementation of CCS. In addition, the
tax credit is, in general, available only
for the 12-year period beginning on the
date the equipment is originally placed
in service. IRC section 45Q(a)(3)–(4).
Thus, it would not be available to offset
much of the capital costs of the CCS
systems that are recovered over a 30year period.222 Further, like any federal
income tax credit, the 45Q tax credits do
not provide a benefit to a company that
does not owe federal income tax, and
thus it may not benefit some coal-fired
power plant owners. Accordingly, the
45Q tax credits cannot be considered to
offset the high costs of CCS for the
industry as a whole. While nearby EOR
opportunities are available for some
EGUs, they alone cannot offset the high
costs of CCS, as is evident from the
comments discussed above.
In addition, nearby EOR opportunities
are not available for many EGUs, which,
as a result, would incur higher costs for
constructing and operating pipelines to
transport CO2 long distances.
Throughout the country, 29 states are
identified as having oil reservoirs
amenable to EOR, of which only 12
states have active EOR operations.223
The vast majority of EOR is conducted
in oil reservoirs in the Permian Basin,
which extends through southwest Texas
and southeast New Mexico. States
where EOR is utilized include Alabama,
Arkansas, Colorado, Louisiana,
Michigan, Mississippi, Montana, New
Mexico, Oklahoma, Texas, Utah, and
Wyoming, whereas coal-fired generation
221 By comparison, the implementation period for
the CPP began three years after the state plan
submittal. See 80 FR at 64669.
222 The NETL Pulverized Coal Carbon Capture
Retrofit Database tool (April 2019) defaults to a
capital recovery factor based on 30 years. Capital
recovery factors based on 10 and 20 years are also
selectable. If shorter periods are selected, the
$/MWh for capital recovery would be higher. Table
10–12 of The Integrated Planning Model (version 6)
uses a 15-year capital recovery factor for
environmental retrofits, https://www.epa.gov/sites/
production/files/2019-03/documents/chapter_
10.pdf. Recovering costs over a 12-year period, as
opposed to a 30-year period, increased the capital
recovery factor by 40 percent.
223 The United States 2012 Carbon Utilization and
Storage Atlas, Fourth Edition, U.S. Department of
Energy, Office of Fossil Energy, National Energy
Technology Laboratory (NETL) and EPA
Greenhouse Gas Reporting Program, see https://
www.epa.gov/ghgreporting.
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capacity is located across the
country.224 For example, Georgia,
Minnesota, Missouri, Nevada, North
Carolina, South Carolina, and
Wisconsin have coal-fired generation
capacity but do not have oil reservoirs
that have been identified as amenable
for EOR. In addition, some of the states
with the largest amounts of coal-fired
generation capacity have no active EOR
operations, including Illinois, Indiana,
Kentucky, Ohio, Pennsylvania,
Tennessee, Virginia, and West Virginia.
Even in states that are identified as
having potential oil and gas storage
capacity, the amount of storage resource
varies by state. In some states, the total
oil and gas storage resource is smaller
than the annual energy-related CO2
emissions from coal, including Indiana
and Virginia.225 The limited geographic
availability of EOR, and the consequent
high costs of CCS for much of the coal
fleet, by itself means that CCS cannot be
considered to be available across the
existing coal fleet.
The high costs of CCS inform the
Administrator’s determination that this
technology is not BSER. Some
commenters have suggested that CCS be
treated as BSER for some facilities on a
unit-by-unit basis, but the EPA believes
that this would be inconsistent with its
role under section 111(a)(1) to
determine as a general matter what is
the BSER that has been adequately
demonstrated, taking into account,
among other factors, cost. To treat CCS
as BSER for a handful of facilities would
result in those facilities becoming
subject to high costs from CCS—
potentially much higher than those
imposed on other facilities for whom
CCS is not treated as BSER. This
potential disparate impact of costs is
inconsistent with the Administrator’s
role in determining BSER and is another
reason why the Administrator is
finalizing a determination that CCS is
not BSER.
Nevertheless, while many
commenters argued that CCS should not
be considered part of the BSER, they
supported its use as a potential
compliance option for meeting an
individual unit’s standard of
performance. The EPA agrees with this
assessment. Evaluation of the technical
feasibility (e.g., space considerations,
224 U.S. Energy Information Administration,
Electric Power Annual 2017, see https://
www.eia.gov/electricity/annual/pdf/epa.pdf.
225 The United States 2012 Carbon Utilization and
Storage Atlas, Fourth Edition, U.S. Department of
Energy, Office of Fossil Energy, National Energy
Technology Laboratory (NETL) and U.S. Energy
Information Administration, Energy-Related Carbon
Dioxide Emissions by State, 2005–2016, see https://
www.eia.gov/environment/emissions/state/analysis/
.
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integration issues, etc.) and the
economic viability (e.g., the prospects
and availability of long-term contractual
arrangements for sale of captured CO2,
the cost of constructing a CO2 pipeline,
the availability of tax credits, etc.) of a
CCS project is heavily dependent on
source-specific characteristics.
Accordingly, state plans may authorize
such projects for compliance with this
rule.
F. State Plan Development
1. Establishing Standards of
Performance
CAA sections 111(d)(1) and 111(a)(1)
collectively establish and define certain
roles and responsibilities for the EPA
and the states. As discussed in section
III.B above, the EPA has the authority
and responsibility to determine the
BSER. CAA section 111(d)(1) clearly
contemplates that states will submit
plans that establish standards of
performance for designated facilities
(i.e., existing sources).
States have broad flexibility in setting
standards of performance for designated
facilities. However, there is a
fundamental obligation under CAA
section 111(d) that standards of
performance reflect the degree of
emission limitation achievable through
the application of the BSER, which
derives from the definition for purposes
of section 111 of ‘‘standard of
performance’’ in those terms, with no
distinction made between new-source
and existing-source standards. In
establishing such standards of
performance, the statute expressly
provides that states may consider a
source’s remaining useful life and other
factors. Accordingly, based on both the
mandatory and discretionary aspects of
CAA section 111(d), a certain level of
process is required of state plans:
Namely, they must demonstrate the
application of the BSER in establishing
a standard of performance, and if the
state chooses, the consideration of
remaining useful life and other factors
in applying a standard of performance
to a designated facility. The EPA
anticipates that states can
correspondingly establish standards of
performance by performing two
sequential steps, or alternatively, as
further described later in this section, by
performing these two steps
simultaneously. The two steps to
establish standards of performance are:
(1) Reflect the degree of emission
limitation achievable through
application of the BSER, and, if the state
chooses, (2) consider the remaining
useful life and other source-specific
factors.
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If a state chooses to develop standards
of performance through a sequential
(i.e., two step) process, the state would
as the first step apply the BSER to a
designated facility’s emission
performance (e.g., the average emission
rate from the previous three years or a
projected emission rate under specific
conditions such as load) and calculate
the resulting emission rate. In this step,
states fulfill the obligation that
standards of performance reflect the
degree of emission limitation achievable
by evaluating the applicability of each
of the candidate technologies that
comprise the BSER to a specific
designated facility and calculating a
corresponding standard of performance
based on the application of all candidate
technologies that the state determines
are applicable to the specific designated
facility. A state may determine the most
appropriate methodology to calculate a
standard of performance (which for
purposes of this regulation will be in the
form of an emission rate, as further
described in section III.F.1.c. of this
preamble) by applying the BSER to a
designated facility based on the
characteristics of the specific source
(e.g., load assumptions and compliance
timelines). For example, a state can start
with the average emission rate of a
particular designated facility and adjust
it to reflect the application of each
candidate technology and the associated
emission rate reduction.
As the second step, under this twostep, sequential process approach, after
the state calculates the emission rate
that reflects application of the BSER, the
state may adjust that rate by considering
the remaining useful life of the
designated facility and other sourcespecific factors. It should be noted that
the state is not required to take this
second step and consider remaining
useful life and other factors. Rather, the
state has the discretion to do so. A
discussion on how a state can consider
remaining useful life and other factors,
if it so chooses, can be found in section
III.F.1.b. below. States also have the
discretion to apply a specific standard
of performance to a group of existing
sources within their jurisdiction, or to
all existing sources within their
jurisdiction.
As just described, the EPA believes it
would be reasonable for states to follow
a sequential two-step process to
establish standards of performance.
However, a state may develop its own
process for calculating standards of
performance outside of this two-step
process, such as a hybridized approach
which blends the two sequential steps
into one combined step, so long as the
state plan submission demonstrates
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application of the BSER in determining
each standard of performance, (i.e.,
evaluation of applicability of each and
all candidate technologies to each
designated facility). For example, if a
state determines that the designated
facility is able to implement only four
of the six candidate technologies (due to
the remaining useful life or other
factors), the state is required to
demonstrate in its plan submission that
it in fact considered the two remaining
candidate technologies in making this
determination.
For the two-step approach, a state
could do this by explaining in its plan
submission that it considered the
application of each of the candidate
technologies in the first instance, but in
the second step the state determined
that the two candidate technologies
should not be part of the methodology
to calculate the EGU’s standard of
performance because of remaining
useful life or other factors. The state
should additionally provide a rationale
for why and how it considered
remaining useful life and other factors
to discount a particular candidate
technology from the calculation of a
standard of performance (e.g., by
explaining that such technology has
already been implemented by a
particular source).
For a hybridized approach, when the
state is applying the BSER and
determining the emission reductions
associated with the candidate
technologies for a specific designated
facility, it may be readily apparent that
two of the candidate technologies are
not reasonable to install because, for
example, those technologies have
recently been updated at the unit,
independent of this final rule. This
hybridized approach, which blends
application of the BSER and associated
stringency with consideration of
remaining useful life and other factors
in one step to calculate a standard of
performance, may be appropriate
provided that the state plan clearly
demonstrates the standard of
performance (expressed as a degree of
emission limitation) that would result
from application of the BSER and
provides a rationale for why and how
remaining useful life and other factors
were considered to discount a particular
candidate technology from the
calculation of a standard of
performance. This is one illustrative
way in which states can demonstrate, in
establishing a standard of performance,
that they have both fulfilled their
obligation to apply the degree of
emission limitation achievable through
the BSER to each designated facility and
also properly invoked their discretion in
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considering remaining useful life and
other factors.
In this section of the preamble, the
EPA addresses discrete aspects of the
standard-setting process. It is intended
to provide states clarity and direction on
each of these aspects to assist the states
in developing standards of performance.
The EPA is not requiring a specific
method for states to develop standards
of performance.
a. Application of the BSER
As described in other parts of this
section, while the EPA’s role is to
determine the BSER, CAA section
111(d)(1) squarely places the
responsibility of establishing a standard
of performance for an existing
designated facility on the state as part of
developing a state plan. This final rule
requires states to evaluate the
applicability of each of the candidate
technologies (HRI measures) that the
EPA has determined constitute the
BSER in establishing a standard of
performance for each designated facility
within their jurisdiction. The BSER is a
list of candidate technologies that are
HRI measures, which states will
evaluate and apply to existing sources,
establishing a standard of performance
that is appropriately tailored to each
existing source.226 In establishing a
standard of performance, a state may
consider remaining useful life and other
factors as appropriate based upon the
specific characteristics of those units. In
general, the EPA envisions that the
states would set standards based on
considerations most appropriate to
individual sources or groups of sources
(e.g., subcategories). These may include
consideration of historical emission
rates, effect of potential HRIs (informed
by the information in the EPA’s
candidate technologies described earlier
in section III.E), or changes in operation
of the units, among other factors the
state believes are relevant. As such,
states have considerable flexibility in
determining standards of performance
for units, as contemplated by the
express statutory text.
States have discretion to apply the
same standard of performance to groups
of existing sources within their
jurisdiction, as long as they provide a
sufficient explanation for this choice
and a demonstration that this approach
will result in standards of performance
achievable at the sources. But states also
226 Because the candidate technologies that
comprise the BSER can, at least in some cases, be
applied in combination at an individual source,
states should evaluate both individual candidate
technologies and combinations of candidate
technologies to appropriately establish standards of
performance.
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have discretion, expressly conferred on
them by Congress in CAA section
111(d), to take into account a source’s
remaining useful life and other factors
when establishing a standard of
performance of that source, and much of
the discussion in this final rule relates
to the nature of that discretion and the
factors that should influence states’
exercise of it. As the EPA described in
the proposal and as commenters have
verified, the fleet of coal-fired EGUs is
diverse and each EGU has been
designed and engineered uniquely to fit
the need at the time of construction.
Because each coal-fired steam boiler
subject to this rule has been designed,
maintained, utilized, and upgraded
uniquely, each designated facility has a
unique set of circumstances with a set
of source-specific factors governing its
use. The outgrowth of the abundance of
source-specific factors has led the EPA
to determine that a tailored standard of
performance (developed by states) that
considers those factors can achieve
emission reductions in the fleet without
making broad assumptions about the
fleet that may not be applicable to a
particular unit. The source-specific
circumstances at each EGU causes
considerable variation in average
emission rates across the fleet. If a single
standard of performance (i.e., a single
degree of emission limitation resulting
from a particular technology or fixed set
of technologies) were to be applied to
the entire fleet, the result could be
either that a large portion of the fleet
would not be required to achieve any
meaningful emission reductions, or a
large portion of the fleet would face
overly stringent requirements. The goal
of these emission guidelines is not to
burden or shut down coal-fired EGUs—
which could compromise the stability of
the power sector and thus energy
reliability to consumers, concerns
which the EPA expresses, informed by,
among other factors, Congress’s
direction to take into account energy
requirements in determining BSER—as
coal-fired EGUs still have considerable
viability as part of the power sector.
When states apply the BSER’s
candidate technologies to a designated
facility, the application of each
technology and the associated degree of
emission limitation achievable by such
application will entail source-specific
determinations. For this reason, in Table
1, the EPA provided the degree of
emission limitation achievable through
application of the BSER in the form of
ranges, which capture the reductions
and costs that the EPA expects to
approximate the outcome of the
application. The degree of emission
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limitation achievable through
application of the BSER (i.e., the ranges
of improvements in Table 1) should be
used by the states in establishing a
standard of performance; however, the
standard of performance calculated for a
specific designated facility may
ultimately reflect a degree of emission
limitation achievable through
application of the BSER outside of the
EPA’s ranges because of consideration
of source-specific factors. If a state uses
the sequential two-step process to
establish a standard of performance, in
the first step the EPA expects that the
state will use the range of improvements
for each candidate technology (and
combinations thereof where technically
feasible) to develop a standard of
performance for a designated facility
(the range of costs can be used in the
second step which considers the
remaining useful life and other factors
as discussed in section III.F.1.b.). The
ranges of HRI in section III.E are typical
of an EGU operating under normal
conditions. While a source with typical
operating conditions (assuming no
consideration of remaining useful life or
other factors) will have a standard of
performance with an expected
improvement in performance within the
ranges in Table 1, there may be sourcespecific conditions that cause the actual
HRI of the applied candidate technology
to fall outside the range. For example,
if a designated facility had installed a
new boiler feed pump just prior to a
state’s evaluation of the designated
facility, the application of that
candidate technology would yield
negligible improvement in the heat rate
and thus the value would fall outside
the ranges provided by the EPA (i.e.,
because the technology has already been
applied and the baseline emission rate
reflects that). As with the application of
all the candidate technologies, the state
plan submission must identify: (1) The
value of HRI (i.e., the degree of emission
limitation achievable through
application of the BSER) for the
standard of performance established for
each designated facility; (2) the
calculation/methodology used to derive
such value; and (3) any relevant
explanation of the calculation that can
help the EPA to assess the plan. In
explaining the value of HRI that has
been calculated, if the value of the HRI
falls within the range identified by the
EPA for a particular candidate
technology, a state may note as such as
part of its explanation. If a resulting
value of HRI falls outside the range
provided by the EPA, the state should
in its state plan submission explain why
this is the case based on application of
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the candidate technology to a particular
source. In any instance, the state plan
submission must identify the value of
HRI that has been calculated and the
calculation used to derive the value of
HRI, and explain both. The states will
thus use the information provided by
the EPA, but will be expected to
conduct source-specific evaluations of
HRI potential, technical feasibility, and
applicability for each of the BSER
candidate technologies. After a state
applies the candidate technologies to a
designated facility (i.e., step one), it can
consider the remaining useful life and
other factors associated with the source
and determine whether it is costreasonable to actually implement that
technology at the source (i.e., step two).
This is described in detail below in
section III.F.1.b.
The approach to require states to
tailor standards of performance for
designated facilities is both consistent
with the framework of cooperativefederalism envisioned under CAA
section 111(d), and the new
implementing regulations for CAA
section 111(d).227 The new
implementing regulations at40 CFR
60.21a(e) and 60.22a(b)(2) and (4)
require emission guidelines to reflect,
and contain information on, the degree
of emission limitation achievable
through the application of the BSER. By
providing the BSER and the associated
level of stringency in the form of HRIs
and associated range of heat rate
improvements, the EPA is thus meeting
applicable statutory and regulatory
requirements and is giving states the
necessary information and direction to
establish standards of performance for
existing sources that reflect the degree
of emission limitation achievable
through application of the BSER.228
(1) Variable Emission Performance
The Agency received comments that
there is considerable variation in
emissions between designated facilities
within the industry, as well as
considerable variation of emissions for
individual units based on the operating
conditions. Commenters expressed
concern that the degree of emission
limitation achievable through the
application of the BSER is similar to the
227 See
83 FR 44746.
providing the BSER and level of stringency
associated with the BSER, ACE meets the applicable
requirements of the new implementing regulations
at 40 CFR part 60, subpart Ba, regarding the
contents of an emission guideline. An ‘‘emission
guideline’’ is defined under 40 CFR 60.21a(e) as a
‘‘final guideline document’’ which must contain
certain items enumerated under 40 CFR 60.22a. The
preamble, regulatory text, and record for ACE
comprise the ‘‘final guideline document’’
referenced as the emission guideline.
228 By
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magnitude in the variation in the
emission rate at a specific EGU due to
different operating conditions (e.g., the
operating load of the EGU). Commenters
contend that because of this similarity,
a designated facility could fall out of
compliance with its standard of
performance if its operating conditions
change despite the source’s having
installed/applied all of the candidate
technologies.
Commenters further stated that
oftentimes the operation of a designated
facility is not in the control of the
owner/operator when it goes to load and
cycling, and because of that the
emission rate varies based on
circumstances that are outside of the
designated facility’s control. The
commenters further state that they
should not be held accountable to
standards that are not reflective of this
lack of control and variability. The EPA
acknowledges commenters’ concerns
about variability among designated
facilities and variability of emission
performance at an individual designated
facility, and believes the flexibilities
provided for states in establishing
standards of performance, as described
in this section, are sufficient to
accommodate these variables. In
establishing standards of performance,
states can consider the two distinct
types of variable emission
performance 229 (i.e., variation between
different facilities and variation of
emissions at one facility at different
times) and states can tailor standards of
performance accordingly.
First, standards of performance
should acknowledge and reflect
variability across EGUs due to unitspecific characteristics and factors,
including, but not limited to, boilertype, size, etc. By allowing states to
establish standards of performance for
individual designated facilities (in
accordance with the statute’s text and
structure which provides that states in
their plans shall establish standards of
performance for existing sources), the
EPA expects that standards of
performance will inherently account for
unit-specific characteristics.230 By
applying the BSER to individual
designated facilities within the state,
standards of performance would
account for unit-specific characteristics
such as unit design, historical operation
and maintenance. As further described
in section III.F.1.b, states may also
account for anticipated future design
and/or operating plans—such as plans
to operate as baseload or load following
electricity generators.
Second, standards of performance
should reflect variability in emission
performance at an individual designated
facility due to changes in operating
conditions. Specifically, the agency
believes it would be appropriate for
states to identify key factors that
influence unit-level emission
performance (e.g., load, maintenance
schedules, and weather) and to establish
emission standards that vary in
accordance with those factors. In other
words, states could establish standards
of performance for an individual EGU
that vary (i.e., differ) as factors
underlying emission performance vary.
For example, states could identify load
segments (ranges of EGU load operation)
that reflect consistent emission
performance within the segment and
varying emission performance between
segments. States could then establish
standards of performance for an EGU
that differ by load segment.
Another possible option to account
for variable emissions is to set standards
of performance based on a standard set
of conditions. A state could establish a
baseline of performance of a unit at
specific load and operational conditions
and then set a standard against those
conditions via the application of the
BSER. Compliance for the unit could be
demonstrated annually (or by another
increment of time if appropriate based
on the level of stringency of the
standard of performance set for the unit)
at those same conditions. In the interim,
between the demonstration of
compliance under standardized
conditions, a state could allow for the
maintenance and demonstration of fully
operational candidate technologies to be
a method to demonstrate compliance as
229 In this context, variable emission performance
is a result of underlying variability in heat rate, as
emissions of CO2 from EGUs are proportional to the
unit’s heat rate performance.
230 Note that for administrative efficiency in
developing a state plan, a state may be able to
calculate a uniform standard of performance that
reflects application of the BSER for a group of
designated facilities rather than performing the
same calculation multiple times for multiple
individual sources if the group of sources has
similar characteristics such that application of
BSER would be consistent between the EGUs. This
final rule does not necessarily require a state to
provide a discrete calculation and separate standard
of performance for each designated facility within
a group of similar designated facilities, but if a state
chooses to calculate a uniform rate for such a group
of sources the plan submission should explain how
the uniform rate reflects application of the BSER for
all of the units in the group (e.g., because of similar
operating characteristics). Additionally, even if the
same emission rate is calculated for designated
facilities at different facilities that are included in
such a group, such standard is applicable to each
individual designated facility, and each source
would be required to meet that standard by
implementing ACE requirements separately,
consistent with the state plan requirements
described in section III.F.2 of this rule.
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the standard of performance must apply
at all times.
The Agency believes that these
approaches to providing flexibility (and
possible others not described here) in
establishing standards of performance
are reasonable and appropriate by
accounting for innate variable emission
performance across EGUs and at specific
EGUs while also limiting this flexibility
to instances in which underlying
variable factors are evaluated and linked
to variable emission performance.
(2) Compliance Timelines
Additionally, the new implementing
regulations require that emission
guidelines identify information such as
a timeline for compliance with
standards of performance that reflect the
application of the BSER.231 However,
given the source-specific nature of these
emission guidelines and the reasonably
anticipated variation between standards
established for sources within a state,
the EPA believes it more appropriate
that a state establish tailored
compliance deadlines for its sources
based on the standard ultimately
determined for each source.
Accordingly, the EPA is superseding
this aspect of 40 CFR 60.22a for
purposes of ACE, as allowed under the
applicability provision in the new
implementing regulations under 60.20a
and allowing for states to include an
appropriate compliance deadline for
each designated facility based on its
standard of performance determined as
part of the state plan process. It is
important that states consider
compliance timelines that are consistent
with the application of the BSER to
ensure that the compliance timeline
does not undermine the BSER
determination made by the EPA. For
most states, the EPA anticipates initial
compliance to be achieved by sources
within twenty-four months of the state
plan submittal. If a state chooses to
include a compliance schedule (because
of source-specific factors) for a source
that extends more than twenty-four
months from the submittal of the state
plan, the plan must also include legally
enforceable increments of progress for
that source 232). The EPA does not
envision that most states will be using
increments of progress leading up to
initial compliance. However, as with the
consideration of other source-specific
factors, where a state does choose to
provide for a source to comply on a
longer timeframe than twenty-four
months and to employ legally
enforceable increments of progress
231 See
232 See
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along the way, the state should include
in its state plan submission to the EPA
an adequate justification for why that
approach is warranted. The level of
stringency can be compromised if a
compliance schedule does not
adequately reflect the BSER
determination.
Several commenters requested clarity
on when standards of performance must
become effective (i.e., when must
designated facilities comply with their
standards of performance) once a state
plan has been submitted but not yet
approved by the EPA. The contents of
a state plan submission, such as
standards of performance and related
requirements, are not effective or
enforceable under federal law until they
are approved by the EPA. However,
state plan requirements must be fully
adopted as a matter of state law, or
issued as a permit, order, or consent
agreement, before the plan is submitted
to the EPA (and therefore could be
enforceable as a matter of state law,
depending on when the state has chosen
to make such requirements effective).233
The EPA anticipates that in determining
an appropriate compliance schedule
(and more specifically the initial
compliance) for designated facilities, a
state will consider the anticipated
timing of review of the state’s plan by
the EPA and what sources may need to
do in the interim in order to assure
ultimate compliance with their
standards of performance while EPA is
in the process of reviewing the plan.
States also have discretion in
establishing a compliance schedule for
designated facilities, but the Agency
urges states to use caution as to not
undermine the BSER by the determined
schedules. Most programs under CAA
section 111 do not have compliance
timelines greater than a year and the
Agency believes that is a good indicator
for states to take into consideration
determining compliances schedules.
Much of how a compliance schedule is
structured can be based on how the
standard of performance is structured.
In section III.F.1.a.(1) there is a
discussion about how a state might
account for variable emissions. One of
the options is to set a standard of
performance under standardized
conditions to take into account many of
the factors that can lead to variable
emissions from a designated facility.
The standardized conditions (e.g., load,
ambient temperature, humidity etc.) that
apply to the standard of performance
must also be met when there is a
compliance demonstration. Because
these standardized conditions are not
233 40
CFR 60.23a, 60.27a(g)(2)(iii).
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maintained throughout a compliance
period, the segmented nature of
demonstrating compliance could mirror
the compliance schedule. For example,
a designated facility could have a
monthly demonstration under
standardized conditions that mirrors a
monthly compliance schedule. This is
one example to illustrate how a
standard of performance can align with
a compliance schedule.
Another consideration for states in
establishing standards of performance is
the emission averaging time (e.g., the
amount of time that a designated facility
may average its emission rate). As
described above in section III.F.1.a.(1),
EGUs may have considerably variable
emissions due to numerous operating
factors. A method to account for
seasonal variability is to average a
designated facility’s emission rate over
the course of multiple seasons.
b. Consideration of Remaining Useful
Life and Other Factors
CAA section 111(d) requires, in part,
that the EPA ‘‘shall permit the State in
applying a standard of performance to
any particular source under a plan
submitted under [CAA section 111(d)]
to take into consideration, among other
factors, the remaining useful life of the
existing source to which such standard
applies.’’ Consistent with the
requirements of this provision, the EPA
is permitting states to consider
remaining useful life and other factors
in establishing a standard of
performance for a particular source in
this final rule. States may do this in
several ways. If a state is following the
sequential two-step process, the state
would first apply all of the candidate
technologies to a designated facility to
derive a standard of performance with
consideration to the EGU’s historical or
projected performance, as previously
described in section III.F.1.a. In the
second step of this process, the state
would consider the ‘‘remaining useful
life and other factors’’ for the EGU and
develop a standard of performance
accordingly. It should be noted that the
consideration of remaining useful life
and other factors is a discretionary step
for states. If a state were to establish a
standard of performance for a
designated facility based solely on the
application of the BSER, it would be
reasonable to do so and not precluded
under the statute.
The CAA explicitly provided under
CAA section 111(d)(1) that states could,
under appropriate circumstances,
establish standards of performance that
are less stringent than the standard that
would result from a direct application of
the BSER identified by the EPA. CAA
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section 111(d)(1) achieves this goal by
authorizing a state, in applying a
standard of performance, to take into
account a source’s remaining useful life
and other source-specific factors. As
such, the EPA is promulgating, as part
of the new implementing regulations at
40 CFR 60.20a-29a, a provision to
permit states to take into account
remaining useful life, among other
factors, in establishing a standard of
performance for a particular designated
facility, consistent with CAA section
111(d)(1)(B). The new implementing
regulations (also consistent with the
previous implementing regulations) give
meaning to CAA section 111(d)(1)(B)’s
reference to ‘‘other factors’’ by
identifying the following as a
nonexclusive list of several factors states
may consider in establishing a standard
of performances:
• Unreasonable cost of control
resulting from plant age, location, or
basic process design;
• Physical impossibility of installing
necessary control equipment; or
• Other factors specific to the facility
(or class of facilities) that make
application of a less stringent standard
or final compliance time significantly
more reasonable.
Given that there are unique attributes
and aspects of each designated facility,
there are important factors that
influence decisions to invest in
technologies to meet a potential
standard of performance. These include
factors not enumerated in the list
provided above, including timing
considerations like expected life of the
source, payback period for investments,
the timing of regulatory requirements,
and other source-specific criteria. The
state may find that there are space or
other physical barriers to implementing
certain HRIs at specific units.
Alternatively, the state may find that
some HRI options are either not
applicable or have already been
implemented at certain units. The EPA
understands that many of these ‘‘other
factors’’ that can affect the application
of the BSER candidate technologies
distill down to a consideration of cost.
Applying a specific candidate
technology at a designated facility can
be a unit-by-unit determination that
weighs the value of both the cost of
installation and the CO2 reductions.
The EPA received comment on the
ACE proposal that the EPA should
provide more information and guidance
for what could be considered ‘‘other
factors’’ in addition to the
considerations of the remaining useful
life. In addition, commenters also
requested more information on the
remaining useful life and other source-
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specific factors that could be considered
in developing a standard of
performance. The EPA acknowledges
that there are a host of things that could
be considered ‘‘other factors’’ by states
that can be used to develop a standard
of performance. While the EPA cannot
identify every set of circumstances and
factors that a state could consider, the
EPA agrees with the commenters that it
would be helpful for states if the EPA
were to provide a non-exhaustive set of
qualitative examples that states could
consider in developing standards of
performance as described below. The
EPA will evaluate each standard of
performance and the factors that were
considered in the development of the
standard of performance on a case by
case basis. The state should include all
of the factors and how the factors were
applied for each standard of
performance in the state plan. The EPA
received many notable comments that
states would like more direction and
assistance in developing standards of
performance. The examples are
intended to help provide this assistance,
but the EPA also understands that,
because there are so many
considerations for each source, states
might have further questions while
developing plans. States are encouraged
to reach out to the Agency during the
development of plans for further
assistance.
As noted above, the consideration of
the remaining useful life and other
factors most often is a reflection of cost.
When the EPA determines the BSER for
a source category, the EPA typically
considers factors such as cost relative to
assumptions about a typical unit.
Because the costs evaluated for the
BSER determination are relative to a
typical unit, the source-specific
conditions of any particular existing
designated facility that a state will
evaluate in developing its plan under
CAA section 111(d) are not inherently
considered. A state’s consideration of
the remaining useful life and other
factors will reflect the costs associated
with the source-specific conditions. As
part of the BSER determination, the EPA
has provided a range of costs associated
with each candidate technology (see
Table 1). These costs are provided to
serve as an indicator for states to
determine whether it is cost-reasonable
for the candidate technology to be
installed. These cost ranges are certainly
not intended to be presumptive (i.e., the
ranges are not an accurate
representation for each designated
facility and should not be used without
a justified analysis by the state), but
rather are provided as guide-posts to
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states. If a state considers the remaining
useful life and/or other factors in
determining a standard of performance,
the state is required to describe, justify,
and quantify how the considerations
were made in its plan. Because these
considerations are discretionary and
source-specific, the burden is on the
state in its plan to demonstrate and
justify how they were taken into
account.
A state might consider the remaining
useful life of a designated facility with
a retirement date in the near future by
a number of ways in the standard setting
process. One way that a state may take
into account this circumstance is in
applying the BSER (either through the
sequential, two-step process or through
some other method that reflects
application of the BSER), establish a
standard that ultimately only applies
the less costly BSER technologies in the
development of the standard of
performance that the state establishes
for the particular designated facility.
The shorter life of the designated facility
will generally increase the cost of
control because the time to amortize
capital costs is less. Another outcome of
a state’s evaluation of a designated
facility’s remaining useful life may lead
to the state setting a ‘‘business as usual’’
standard. This could be an appropriate
outcome where the remaining useful life
of the designated facility is so short that
imposing any costs on the EGU is
unreasonable. Because a state plan must
establish standards of performance for
‘‘any’’ designated facility under CAA
section 111(d), the standard applied to
this designated facility would reflect
‘‘business as usual’’ and require the unit
to perform at its current level of
efficiency during the remainder of its
useful life. Under all of these examples
and under any other circumstance in
which a state considers remaining
useful life or other factors in
establishing a standard of performance,
the state must describe in its state plan
submission such consideration and
ensure it has established a standard for
every designated facility within the
state, even one with an anticipated nearterm retirement date.
Another consideration for a state in
setting standards of performance with
consideration to the remaining useful
life and other factors is how the
different candidate technologies interact
with one another and how they interact
with the current system at a designated
facility. Commenters have expressed,
and the EPA agrees, that the application
of efficiency upgrades at EGUs are not
necessarily additive. Installing HRI
technologies in parallel with one
another may mitigate the effects of one
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or more of the technologies. While states
must apply the BSER and the degree of
emission limitation achievable through
such application in calculating a
standard of performance, states may also
consider the mitigating effects on the
emission reductions that would result
from the installation of a particular
candidate technology, and may as a
result of this consideration determine
that installing that particular candidate
technology at a particular source is not
reasonable. This consideration is
authorized as one of the ‘‘other factors’’
that states may consider in establishing
a standard of performance under CAA
section 111(d)(1) and the new
implementing regulations under 40 CFR
60.24a(e).
A prime example of an ‘‘other factor’’
is ruling out the reapplication of a
candidate technology. The EPA
anticipates this to be a part of many
state plans. In this scenario, a
designated facility recently applied one
of the candidate technologies prior to
the time ACE becomes applicable. To
require that designated facility to update
that candidate technology again, as a
result of ACE, would not be reasonable
because the costs will be significant
with marginal, if any, heat rate
improvement.
As described in section III.F.1.c.,
states are obligated to set rate-based
standards of performance. These will
generally be in the form of the mass of
carbon dioxide emitted per unit of
energy (for example pounds of CO2 per
megawatt-hour or lb/MWh). The
emission rate can be expressed as either
a net output-based standard or as a gross
output-based standard, and states have
the discretion to set standards of
performance in either form. The
difference between net and gross
generation is the electricity used at a
plant to operate auxiliary equipment
such as fans, pumps, motors, and
pollution control devices. The gross
generation is the total energy produced,
while the net generation is the total
energy produced minus the energy
needed to operate the auxiliary
equipment.
Most of the candidate technologies,
when applied, affect the gross
generation efficiency. However, some
candidate technologies, namely
improved or new variable frequency
drives and improved or new boiler feed
pumps, improve the net generation by
reducing the auxiliary power
requirement. Because improvements in
the efficiency of these devices represent
opportunities to reduce carbon intensity
at existing affected EGUs that would not
be captured in measurements of
emissions per gross MWh, states may
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want to consider standards expressed in
terms of net generation. If a state
chooses to set standards in the form of
gross energy output, it will be up to the
state to determine and demonstrate how
to account for emission reductions that
are achieved through measures that only
affect the net energy output.
One of the more significant changes
between the ACE proposal and this
action is that the EPA is not finalizing
the NSR reforms that it proposed in the
same document that it proposed ACE.
While the EPA intends to take final
action on the NSR reform at a later time
in a separate action, the consequences of
that action are no longer considered in
parallel with ACE. Two of the candidate
technologies, blade path upgrades and a
redesigned/replaced economizer, were
proposed as part of the BSER
considering that NSR would not be a
barrier for installation. Under ACE as
finalized without parallel NSR reforms,
the EPA anticipates that states may take
into account costs associated with NSR
as a source-specific factor in considering
whether these two technologies are
reasonable. While the EPA believes that
states are more likely to determine that
blade path upgrades and redesigned/
replaced economizers are not as
reasonable as anticipated at proposal
when these were proposed as elements
of BSER alongside proposed NSR
reforms, as discussed above, the EPA is
still finalizing a determination that
these candidate technologies are
elements of the BSER because it still
expects these technologies to be
generally applicable across the fleet of
existing EGUs, and because the costs of
the technologies themselves are
generally economical and reasonable. In
any case, under ACE as finalized, states
are required to evaluate the applicability
of all candidate technologies (i.e., the
BSER) to a particular existing source
when establishing a standard of
performance for that source.
c. Forms of Standards of Performance
While the EPA is allowing broad
flexibility for states in establishing
standards of performance for designated
facilities, the EPA is finalizing a
requirement that all standards of
performance be in the form of an
allowable emission rate (i.e., rate-based
standard in, for example, lb CO2/MWhgross). As described in the proposal an
allowable emission rate is the form that
corresponds to the EPA’s BSER
determination for these emission
guidelines. When HRIs are made at an
EGU, by definition, the CO2 emission
rate will decrease as described above in
section III.E. There is a natural
correlation between the BSER and an
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allowable emission rate as the standard
of performance in this action. Also, by
the Agency prescribing that only a
singular form of standard (i.e., an
allowable emission rate) is acceptable, it
will promote continuity among states
and power companies, prevent
ambiguity, and promote simplicity and
ease of administration and avoid undue
burden on the states and regulated
parties.
The EPA received considerable
comment that it should allow massbased standards of performance. While
the EPA understands the appeal of a
mass-based standard for some
stakeholders, this form of standard is
not compatible with the EPA’s BSER
determination. In fact, the EPA believes
that a mass-based standard would
undermine the EPA’s BSER. If
designated facilities were to have massbased standards, it is likely that many
would meet their compliance obligation
by reduced utilization. A standard of
performance that incentivizes reduced
utilization and possibly retirements
does not reflect application of the BSER.
See section II.B above for a discussion
of reduced utilization and CAA section
111.
Additionally, given that the EPA has
the obligation under CAA section
111(d)(2) to determine whether state
plans are ‘‘satisfactory,’’ certain
programmatic bounds are appropriate to
facilitate the state’s submission of, and
EPA’s review of, the approvability of
state plans. Having a uniform type of
standard of performance will help
streamline the states’ development of
their plans, as well as the EPA’s review
of those plans as there will be fewer
variables to consider in the
development of each standard of
performance. While the Agency has
experience implementing mass-based
programs, the uncertainty associated
with projecting a level of generation for
designated facilities is unnecessary
when there is a more compatible format,
i.e., a rate-based standard.
The EPA also notes that it is not
establishing a preference or requirement
for whether a rate-based standard of
performance be based in gross or net
heat rate. The EPA acknowledges that
there are ramifications of applying the
BSER to establish a standard of
performance with the consideration of
type of heat rate used. This may be
particularly important when
considering the effects of part load
operations (i.e., net heat rate would
include inefficiencies of the air quality
control system at a part load whereas
gross heat rate would not). This will
also be important in recognizing the
improved efficiency obtained from
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upgrades to equipment that reduce the
auxiliary power demand. The
consideration of this factor is left to the
discretion of the state.
2. Compliance Mechanisms
Just as states have broad flexibility
and discretion in setting standards of
performance for designated facilities,
sources have flexibility in how they
comply with those standards. To the
extent that a state develops a standard
of performance based on the application
of the BSER for a designated facility
within its jurisdiction, sources should
be free to meet that standard of
performance using either BSER
technologies or certain non-BSER
technologies or strategies. Thus, a
designated facility may have broad
discretion in meeting its standard of
performance within the requirements of
a state’s plan. For example, there are
technologies, methods, and/or fuels that
can be adopted at the designated facility
to allow the source to comply with its
standard of performance that were not
determined to be the BSER, but which
may be applicable and prudent for
specific units to use to meet their
compliance obligations. Examples of
non-BSER technologies and fuels
include HRI technologies that were not
included as candidate technologies,
CCS, and natural gas co-firing. In
keeping with past programs that
regulated designated facilities using a
standard of performance, the EPA takes
no position regarding whether there
may be other methods or approaches to
meeting such a standard, since there are
likely various approaches to meeting the
standard of performance that the EPA is
either unable to include as part of the
BSER, or is unable to predict. The EPA
is, however, excluding some measures
from use as compliance measures:
averaging and trading and bio-mass
cofiring. These measures do not meet
the criteria for compliance measures.
Those criteria, which are designed to
assure that compliance measures
actually reduce the source’s emission
rate, are two-fold: (1) The compliance
measures must be capable of being
applied to and at the source, and (2)
they must be measurable at the source
using data, emissions monitoring
equipment or other methods to
demonstrate compliance, such that they
can be easily monitored, reported, and
verified at a unit.
With respect to the first criterion, the
EPA believes that both legal and
practical concerns weigh against the
inclusion of measures that cannot
qualify as a ‘‘system of emission
reduction.’’ Allowing those measures
would be inconsistent with the EPA’s
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interpretation of the BSER as limited to
measures that apply at and to an
individual source and reduce emissions
from that source. Because state plans
must establish standards of
performance—which by definition 234
‘‘reflect[ ] . . . the application of the
[BSER]’’—implementation and
enforcement of such standards should
correspond with the approach used to
set the standard in the first place.
Applying an implementation approach
that differs from standard-setting would
result in asymmetrical regulation.
Specifically, a state’s implementation
measures would result in a more or less
stringent standard implemented at an
EGU than could otherwise be derived
from application of the BSER.
There are certainly methods that
affected EGUs could use to meet
compliance obligations that are not the
BSER, but these methods still fit the two
criteria: They can be applied to and at
the source and can be measured at the
source using data, emissions monitoring
equipment or other methods to
demonstrate compliance, such that they
can be monitored, reported, and verified
at a unit. Such examples include CCS
and natural gas cofiring.
Commenters also requested that
reduced utilization be an available
compliance mechanism. While a
designated facility reducing its
utilization would certainly reduce its
mass of CO2 emissions, it would likely
not lead to an improved emission rate.
As noted above in section III.F.1., a state
can certainly take into account a
designated facility’s projected decreased
utilization in setting a standard of
performance, but it cannot make it the
means of meeting compliance
obligations because the degree of
emission limitation achievable through
the application of the BSER must still be
reflected in setting the standard of
performance. See section II.B above for
a discussion of reduced utilization
under CAA section 111.235
a. Averaging and Trading
This section discusses the question of
whether averaging and trading are
permissible means for sources to
comply with ACE. For a discussion of
averaging EGU-emissions over a
compliance period, see section
III.F.1.a.(2). In the proposal, the EPA
solicited comment on whether CAA
section 111(d) authorizes states to
include averaging or trading between
existing sources in the plans they
submit to meet the requirements of final
emission guidelines.236 Specifically, the
EPA: (1) Proposed to allow states to
incorporate, as part of their plan,
emissions averaging among EGUs across
a single plant; and (2) solicited
comment on whether CAA section
111(d) should be read not to authorize
states to include trading and averaging
between sources.237
The EPA received numerous
comments on the topic of averaging and
trading for compliance with ACE. With
respect to averaging across designated
facilities that are located at the same
plant—including, but not limited to,
EGUs that are served by a common
stack—some commenters disapproved
of this flexibility while others supported
the ability to implement ACE via
averaging in state plans. On the topic of
averaging and trading between
designated facilities located at different
plants, the Agency received mixed
support and opposition. Some
commenters suggested that the EPA’s
proposed prohibition on averaging and
trading between designated facilities at
different plants was necessary given the
Agency’s construction of the BSER as
limited to systems that could be applied
to and at the ‘‘source’’ itself. Other
commenters suggested that averaging
and trading for compliance with ACE is
not precluded under CAA section
111(d). Commenters also suggested that
the statutory cross-reference under CAA
section 111(d)(1) to CAA section 110
suggests that trading could be used for
implementation under ACE. Several
commenters provided examples of prior
CAA section 111(d) regulations in
which the agency allowed trading for
implementation (e.g., CAMR).
In this final action, the EPA
determines that: Neither (1) averaging
across designated facilities located at a
single plant; nor (2) averaging or trading
between designated facilities located at
different plants are permissible
measures for a state to employ in
establishing standards of performance
for existing sources or for sources to
employ to meet those standards. CAA
section 111(d) authorizes states to
establish standards of performance for
‘‘any existing source,’’ which the CAA
defines as ‘‘any stationary source other
than a new source.’’ 238 ‘‘Stationary
source,’’ in turn, means ‘‘any building,
structure, facility, or installation which
emits or may emit any air pollutant.’’ 239
In the ACE proposal, the EPA explained
that an EGU ‘‘subject to regulation upon
234 See
236 See
235 For
237 Id.
CAA section 111(a)(1)
a discussion of reduced utilization in
other CAA contexts, please see ACE RTC Chapter
1, response to comment 76.
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239 Id.
83 FR 44767–768.
U.S.C. 7411(a)(6).
at section 7411(a)(3).
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finalization of ACE is any fossil fuelfired electric utility steam generating
unit (i.e., utility boilers) that is not an
integrated gasification combined cycle
(IGCC) unit (i.e., utility boilers, but not
IGCC units) that was in operation or had
commenced construction as of [January
8, 2014],’’ and ‘‘serves a generator
capable of selling greater than 25 MW to
a utility power distribution system and
has a base load rating greater than 260
GJ/h (250 MMBtu/h) heat input of fossil
fuel (either alone or in combination
with any other fuel).’’ 240 The proposal
then identified HRI measures as the
BSER for such units.241 This action
finalizes the Agency’s determination
that HRI measures are the BSER for
designated facilities. See sections III.C &
III.E.
Although the D.C. Circuit has
recognized that the EPA may have
statutory authority under CAA section
111 to allow plant-wide emissions
averaging,242 the Agency’s
determination that individual EGUs are
subject to regulation under ACE
precludes the Agency from attempting
to change the basic unit from an EGU to
a combination of EGUs for purposes of
ACE implementation.243
In ASARCO, the EPA promulgated
regulations re-defining ‘‘stationary
source’’ as ‘‘any . . . combination of
. . . facilities.’’ 244 By treating a
‘‘combination of facilities’’ as a single
source, the EPA intended to adopt a
‘‘bubble concept,’’ which would allow a
facility to ‘‘avoid complying with the
applicable NSPS so long as emission
decreases from other facilities within
the same source cancel out the increases
from the affected facility.’’ 245 The Court
concluded, however, that the Agency
‘‘has no authority to rewrite the statute
in this fashion.’’ 246 In a subsequent
case, the D.C. Circuit recognized that the
EPA has ‘‘broad discretion to define the
statutory terms for ‘source,’ [i.e.,
building, structure, facility or
installation], so long as guided by a
reasonable application of the
statute.’’ 247
Following these two decisions, the
EPA adopted a new regulation defining
‘‘building, structure, facility, or
installation’’ for nonattainment-area
240 83
FR 44754.
at 44755.
242 See U.S. Sugar v. EPA, 830 F.3d 579, 627 n.18
(D.C. Cir. 2016) (pointing to the definition of
‘‘stationary source’’).
243 See, e.g., ASARCO v. EPA, 578 F.2d 319, 327
(D.C. Cir. 1978).
244 Id. at 326 (emphasis added).
245 Id.
246 Id. at 327.
247 Alabama Power Co. v. Costle, 636 F.2d 323,
396 (D.C. Cir. 1979).
241 Id.
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permitting under the NSR program as
‘‘all of the pollutant-emitting activities
which belong to the same industrial
grouping, are located on one or more
contiguous or adjacent properties, and
are under the control of the same person
(or persons under common control)
except the activities of any vessel.’’ 248
That rulemaking lead to the Supreme
Court’s decision in Chevron v. NRDC,
467 U.S. 837 (1984). In Chevron, the
Court recognized that ‘‘it is certainly no
affront to common English usage to take
a reference to a major facility or a major
source to connote an entire plant as
opposed to its constituent parts.’’ 249
Here, the EPA does not need to
determine whether it would have been
reasonable to interpret ‘‘building,
structure, facility, or installation’’ as an
entire plant for purposes of CAA section
111 (thus, encompassing all EGUs
located at a single plant). Because ACE
identifies individual EGUs as the
designated facility,250 state plans cannot
accommodate any ‘‘bubbling’’ of EGUs
for compliance with these emission
guidelines.
In addition, as proposed, the EPA is
precluding averaging or trading between
designated facilities located at different
plants for the following reasons.
The EPA believes that averaging or
trading across designated facilities (or
between designated facilities and other
power plants, e.g., wind turbines) is
inconsistent with CAA section 111
because those options would not
necessarily require any emission
reductions from designated facilities
and may not actually reflect application
of the BSER.251 Because state plans
248 46
FR 50766.
U.S. at 860.
250 Fossil fuel-fired steam generators (i.e., EGUs)
were among the first source categories listed under
CAA section 111. See 36 FR 5931. Since then, the
Agency has promulgated multiple rulemakings
specifically regulating EGUs. See e.g., 40 CFR part
60, subparts D, Da, TTTT, and UUUU. In any case,
the decision to identify EGUs as the regulated
source is made under CAA section 111(b); that is
because regulations under CAA section 111(d) are
authorized for sources ‘‘to which a standard of
performance . . . would apply if such existing
source were a new source.’’ In this case, new source
performance standards have been established for
certain ‘‘new, modified, and reconstructed’’ EGUs.
80 FR 64510. While the EPA proposed to revisit
several portions of those standards, see 83 FR
65424, the Agency did not propose to revise the
applicability requirements for them, id. at 65429.
Accordingly, individual EGUs continue to be the
appropriate regulatory target for purposes of ACE
(and not, for example, multiple EGUs that may be
co-located at a single power plant).
251 The EPA’s interpretation of CAA section 111
on this point has changed since the promulgation
of the since-vacated CAMR and does not necessarily
extend to other CAA programs and provisions,
which can be distinguishable based on the
applicable statutory and regulatory requirements
and programmatic circumstances. For example, the
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must establish standards of
performance—which by definition
‘‘reflects . . . the application of the best
system of emission reduction’’—
implementation and enforcement of
such standards should be based on
improving the emissions performance of
sources to which a standard of
performance applies. Additionally,
averaging or trading would effectively
allow a state to establish standards of
performance that do not reflect
application of the BSER. For example,
under a trading program, a single source
could potentially shut down or reduce
utilization to such an extent that its
reduced or eliminated operation
generates adequate compliance
instruments for a state’s remaining
sources to meet their standards of
performance without any emission
reductions from any other source. This
compliance strategy would undermine
the EPA’s determination of the BSER in
this rule, which the EPA has determined
as heat rate improvements.
In light of these concerns, as
proposed, the EPA concludes that
neither averaging nor trading between
EGUs at different plants can be used in
state plans for ACE implementation.
Regarding commenters’ assertions that
the statutory text of CAA section 111(d)
does not preclude averaging or trading,
the Agency finds that the statutory text
of CAA section 111(d) does not require
the EPA to allow averaging or trading as
a measure for states in establishing
existing-source standards of
performance or allow for sources to
adopt as a compliance measure, and the
interpretation of the limits on the scope
of BSER under CAA section 111(a)(1) set
forth in section II above as a basis for
the repeal of the CPP suggests that those
measures are not permissible, as they
are not applied to a source.
EPA has implemented several trading programs
under the so-called Good Neighbor provision at
CAA section 110(a)(2)(D)(i)(I). See Finding of
Significant Contribution and Rulemaking for
Certain States in the Ozone Transport Assessment
Group Region for Purposes of Reducing Regional
Transport of Ozone (also known as the NOX SIP
Call), 63 FR 57356 (October 27, 1998); Clean Air
Interstate Rule (CAIR) Final Rule, 70 FR 25162 (May
12, 2005); Cross State Air Pollution Rule (CSAPR)
Final Rule, 76 FR 48208 (August 8, 2011); CSAPR
Update Final Rule, 81 FR 74504 (October 26, 2016).
Section 110(a)(2)(A), which is applicable to the
requirements of the Good Neighbor provision,
explicitly authorizes the use of marketable permits
and auctions of emission rights. Additionally, the
Good Neighbor provision prohibits emissions
activity in certain ‘‘amounts’’ with respect to the
NAAQS. The affirmative requirement under this
provision to reduce certain emissions means it is
appropriate to implement measures which will
result in the required emission reductions. The EPA
has done so previously by implementing trading
programs to reduce ozone and particulate matter,
the regional-scale nature of which can be effectively
regulated under a trading program.
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Regarding commenters’ assertions that
the cross-reference in CAA section
111(d) to CAA section 110 authorizes
averaging or trading for implementation,
the Agency disagrees. The crossreference to CAA section 110 indicates
that ‘‘[t]he Administrator shall prescribe
regulations which shall establish a
procedure similar to that provided by
CAA section 110 of this title under
which each State shall submit to the
Administrator a plan . . . .’’ (emphasis
added). The Agency’s interpretation of
this cross-reference is that it focuses on
the procedure under which states shall
submit plans to the EPA. It does not
imply anything affirmative or negative
about implementation mechanisms
available under CAA section 111(d). In
the absence of definitive instruction
under this CAA provision, the Agency
uses its best judgment to conclude that
the meaning and scope of the BSER in
this rule preclude the use of averaging
or trading for covered EGUs at different
plants in state plans. Commenters also
asserted that the EPA has promulgated
regulations under CAA section 111(d)
that included trading in the past, such
as CAMR. As an initial matter, CAMR
was vacated by the D.C. Circuit and
never implemented. Nonetheless, the
Agency notes that the CAMR included
trading both in the establishment of the
BSER and as an available
implementation mechanism. In the ACE
rule, by contrast, trading was not
factored into the determination of the
BSER and so should not be authorized
for implementation.
Moreover, it is not clear that trading
would qualify as a ‘‘system of emission
reduction’’ that can be applied to and at
an individual source and would lead to
emission reductions from that source.
Indeed, the nature of trading as a
compliance mechanism is such that
some sources would not need to apply
any pollution control techniques at all
in order to comply with a cap-and-trade
scheme. A compliance mechanism
under which multiple sources can
comply not by any measures applied to
those sources individually, but instead
by obtaining credits generated by
measures adopted at another source, is
not consistent with the interpretation of
the limits on the scope of BSER adopted
in section II above. Accordingly, trading
is not permissible under CAA section
111.
b. Biomass Co-Firing
The ACE proposal solicited comment
on the inclusion of forest-derived and
non-forest biomass as non-BSER
compliance options for affected units to
meet state plan standards. The proposal
also solicited comment on what value to
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attribute to biogenic CO2 associated
with non-forest biomass, if included.
The EPA received a range of comments
both supporting and opposing the use of
forest-derived and non-forest biomass
feedstocks for compliance under this
rule. Additionally, the EPA received a
range of comments regarding the
valuation of CO2 emissions from
biomass combustion.
Numerous commenters supported the
inclusion of biomass as a compliance
measure. Some reiterated the EPA’s
2018 policy statement regarding
biogenic CO2 emissions, which laid out
the Agency’s intent to treat biogenic CO2
emissions from forest biomass from
managed forests as carbon neutral in
forthcoming Agency actions.
Specifically, these commenters stated
that the nature of biomass and its role
in the natural carbon cycle (i.e., carbon
is sequestered during biomass growth
that occurs offsite) makes biomass a
carbon-neutral fuel, and therefore that
biomass should be eligible as a
compliance option under this rule.
Commenters opposing the inclusion of
biomass for compliance asserted that
biomass combustion does not reduce
stack GHGs emissions, as it emits more
emissions per Btu than fossil fuels, and
therefore should not be eligible for
compliance. Some comments noted that
the scientific rationale underlying the
use of biomass as a potential GHG
reduction measure at stationary sources
relies primarily on terrestrial CO2
sequestration occurring due to activities
offsite (i.e., activities outside of and
largely not under the control of a
designated facility).
The construct of this final ACE rule
necessitates that measures taken to meet
compliance obligations for a source
actually reduce its emission rate in that:
(1) They can be applied to the source
itself; and (2) they are measurable at the
source of emissions using data,
emissions monitoring equipment or
other methods to demonstrate
compliance, such that they can be easily
monitored, reported, and verified at a
unit (see section III.F.2). While the firing
of biomass occurs at a designated
facility, biomass firing in and of itself
does not reduce emissions of CO2
emitted from that source. Specifically,
when measuring stack emissions,
biomass emits more CO2 per Btu than
fossil fuels, thereby increasing the CO2
emission rate at the source.
Accordingly, recognition of any
potential CO2 emissions reductions
associated with biomass firing at a
designated facility relies on accounting
for activities not applied at and largely
not under the control of that source (i.e.,
activities outside of and largely
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unassociated with a designated facility),
including consideration of terrestrial
carbon effects during the biomass fuel
growth. Therefore, biomass fuels do not
meet the compliance obligations and are
not eligible for compliance under this
rule.
3. Submission of State Plans
CAA section 111(d)(1) provides that
states shall submit to the EPA plans that
establish standards of performance for
existing sources within their
jurisdiction and provide for
implementation and enforcement of
such standards. Under CAA section
111(d)(2), the EPA has the obligation to
determine whether such plans are
‘‘satisfactory.’’ In light of the statutory
text, state plans implementing ACE
should include detailed information
related to two key aspects of
implementation: Establishing standards
of performance for covered EGUs and
providing measures that implement and
enforce such standards.
Generally, the plans submitted by
states must adequately document and
demonstrate the process and underlying
data used to establish standards of
performance under ACE. Providing such
documentation is required so that the
EPA can adequately and appropriately
review the plan to determine whether it
is satisfactory; the EPA’s authority to
promulgate a federal plan is triggered in
‘‘cases where the State fails to submit a
satisfactory plan . . . .’’ 252 For
example, states must include data and
documentation sufficient for the EPA to
understand and replicate the state’s
calculations in applying BSER to
establish standards of performance.
Plans must also adequately document
and demonstrate the methods employed
to implement and enforce the standards
of performance such that EPA can
review and identify measures that
assure transparent and verifiable
implementation. Additionally, state
plan submissions must, unless
otherwise provided in a particular
emissions guideline rule, adhere to the
components of the new implementing
regulations described in section IV. The
following paragraphs discuss several
components that states are required to
include in their state plans as required
under these final emission guidelines.
First, state plans must detail the
approach or methods used by the state
to apply the BSER and establish
standards of performance. The state
should include enough detail for the
EPA to be able to reproduce the state’s
methods and calculations. The
methodology submitted should clearly
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section 111(d)(2)(A).
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identify the approach by which states
evaluate all of the HRIs finalized in this
action, both alone and in combination
with each other where technically
feasible. To the extent that HRIs are not
feasible to apply at a particular EGU,
states must provide a rationale (and
supporting data or metrics where relied
upon) for why the calculation would be
invalid or inappropriate.
Second, state plans must identify
EGUs within their borders that meet the
applicability requirements and are
thereby considered a designated facility
under ACE. Plans must also include
emissions and operational data relied
upon to apply BSER and determine
standards of performance. These data
must include, at a minimum, an
inventory of CO2 emissions data and
EGU operational data (e.g., heat input)
for designated EGUs during the most
recent calendar year for which data is
available at the time of state plan
development and/or submission. State
plans must also include any future
projections data relied upon to establish
standards of performance, including
future operational assumptions. To the
extent that state plans consider an
existing source’s remaining useful life in
establishing a standard of performance
for that source, the state plan must
specify the exact date by which the
source’s remaining useful life will be
zero. In other words, the state must
establish a standard of performance that
specifies the designated facility will
retire by a future date certain (i.e., the
date by which the EGU will no longer
supply electricity to the grid). It is
important to note that (as with all
aspects of the state plan) the standard of
performance and associated retirement
date will be federally enforceable upon
approval by the EPA. In the event a
source’s circumstances change so that
this retirement date is no longer
feasible, states generally have the
authority and ability to revise their state
plans. Such plan revisions must be
adopted by the state and submitted to
the EPA pursuant to the requirements of
40 CFR 60.28a.
Third, state plans should submit
detailed documentation demonstrating
in detail the application of the state’s
methodology to the state’s data. In other
words, states should include the
calculations relied upon when applying
the BSER to establish standards of
performance. States should also include
detailed documentation demonstrating
the relied upon compliance
mechanisms, consistent with section
III.F.2.
Regarding establishing standards of
performance and ensuring verifiable
implementation for EGUs with complex
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stack configurations, states should
include approaches (e.g., formulas) that
appropriately assign emissions and
generation to individual EGUs. For
example, if two EGUs share a common
stack, the state should provide a
methodology for disaggregating
monitoring data to the individually
covered EGUs. Another example for
states to consider when appropriately
assigning emissions and setting
standards of performance is
apportioning HRI that affect and
improve the performance of multiple
EGUs at a plant (e.g., apportioning
improvement credited to installed
variable speed drives that affect
multiple designated facilities at a plant).
As part of ensuring that regulatory
obligations appropriately meet statutory
requirements such as enforceability, the
EPA has historically and consistently
required that obligations placed on
sources be quantifiable, permanent,
verifiable, and enforceable. The EPA is
similarly requiring that standards of
performance placed on designated
facilities as part of a state plan to
implement ACE be quantifiable,
permanent, verifiable, and enforceable.
A state plan implementing ACE should
include information adequate to support
a determination by the EPA that the
plan meets these goals.
Additionally, the EPA is finalizing a
determination that states must include
appropriate monitoring, reporting, and
recordkeeping requirements to ensure
that state plans adequately provide for
the implementation and enforcement of
standards of performance. Each state
will have the flexibility to design a
compliance monitoring program for
assessing compliance with the standards
of performance identified in the plan.
To the extent that designated facilities
or states already monitor and report
relevant data to the EPA, states are
encouraged to use these existing
systems to efficiently monitor and
report ACE compliance. For example,
most potentially affected coal-fired
EGUs already continuously monitor CO2
emissions, heat input, and gross electric
output and report hourly data to the
EPA under 40 CFR part 75. Accordingly,
if a state plan establishes a standard of
performance for a unit’s CO2 emissions
rate (e.g., lb/MWh), states may use data
collected by the EPA under 40 CFR part
75 to meet the required monitoring,
reporting, and recordkeeping
requirements under these emission
guidelines.
The EPA is further generally applying
the new implementing regulations for
timing, process and required
components for state plan submissions
and implementation for state plans
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required for designated facilities. The
new implementing regulations are
described in detail in section IV. In
section 40 CFR 60.5740a there is a
complete description and list of what a
state plan must include.
a. Electronic Submission of State Plans
The EPA will, in the near future,
provide states with an electronic means
of submitting plans. While the EPA
proposed the use of the SPeCS software
which has been used by the Agency for
SIP submittals, the Agency is still
developing the software to be used for
ACE submittals. The EPA recommends
that states submit state plans
electronically as it will provide a more
structured process and provide more
timely feedback to the submitting state.
The Agency also anticipates that many
states will choose to submit plans
electronically as states have a level of
familiarity with EPA software, such as
SPeCS. The EPA envisions the
electronic submittal system as a userfriendly, web-based system that enables
state air agencies to officially submit
state plans and associated information
electronically for review. Electronic
submittal is the EPA’s preferred method
for receiving state plan submissions
under ACE. However, if a state prefers
to submit its state plan outside of this
forthcoming system, the state must
confer with its EPA Regional Office
regarding additional guidance for
submitting the plan to the EPA.
b. Approvability of State Plans That Are
More Stringent Than Required Under
ACE
One issue raised by several
commenters is whether the EPA can
approve, and thereby render federally
enforceable, a state plan that contains
requirements for an existing source
within a state’s jurisdiction that are
more stringent than what is required
under CAA section 111(d).253 At
proposal, the EPA acknowledged that
CAA section 116 allows states to be
more stringent than federal
253 Requirements under state plans generally
become federally enforceable once the EPA
determines that they are ‘‘satisfactory’’ per section
111(d)(2). Section 113(a)(3) provides the EPA with
the authority, in part, to enforce any requirement
of any plan approved under the same subchapter as
section 113; section 111(d) is within the same
subchapter as section 113. Additionally, section
304(a)(1) grants citizens the authority to bring civil
action against any person in violation of an
‘‘emission standard’’ under the CAA. Section
304(f)(1) and (3) respectively define ‘‘emission
standard’’ as a standard of performance or any
requirement under section 111 without regard to
whether such requirement is expressed as an
emission standard. Accordingly, citizens with
standing could attempt to enforce the requirements
of an EPA-approved section 111(d) state plan.
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32559
requirements as a matter of state law,
but also noted that nothing in section
116 provides for such more-stringent
requirements to become federally
enforceable.254 Some commenters assert
that it is not within the EPA’s authority
under the CAA to approve such morestringent requirements as part of the
federally enforceable state plan, and the
EPA should instead direct states to
make such requirements exclusively a
matter of state law and enforceability.
Other commenters assert that the
Supreme Court in Union Electric Co. v.
EPA, 427 U.S. 246, (1976), precluded a
reading of section 116 that would
functionally require two separate sets of
requirements, one at the stricter state
level and one at the federally approved
level.
In response to the commenters who
contend the EPA does not have the
authority to approve more stringent
state plans, the EPA believes that these
comments have merit. However, the
EPA does not think it is appropriate at
this point to predetermine the outcome
of its action on a state plan submission
in this regard without going through
notice-and-comment rulemaking with
regard to the approval or disapproval of
that submission.255
254 83
FR 44767 n.37.
the CPP, the EPA took the position that
because ‘‘the EPA’s action on a 111(d)(1) state plan
is structurally identical to the EPA’s action on a
SIP,’’ the EPA is required to approve a state plan
that is more stringent than the BSER because of
CAA section 116 as interpreted by Union Electric.
Legal Memorandum Accompanying Clean Power
Plan for Certain Issues at 28–30; 80 FR 64840. For
the reasons further described in this preamble, the
EPA’s position on this state plan stringency issue
has evolved since the EPA addressed it in the CPP,
and the Agency now identifies a potentially salient
structural distinction between CAA sections 110
and 111(d). Notably, the BSER aspect of section
111(d) is absent from section 110, as SIP-measures
required for attainment or maintenance of the
NAAQS are not predicated on application of a
specific technology. Under CAA section 109, the
EPA establishes a health-protective standard, and
CAA section 110 then gives states broad latitude on
designing the contents of SIPs intended to meet that
standard. By contrast, under CAA section 111, the
EPA identifies a particular measure or set of
measures, and CAA section 111(d) more narrowly
prescribes that the contents of state plans include
performance standards based on the application of
such measures, and measures that provide for the
implementation and enforcement of such standards.
Given this key distinction between CAA sections
110 and 111(d), the EPA no longer takes the
position it took in the CPP that these two statutory
schemes are ‘‘structurally identical’’ and that
therefore, under Union Electric, it must approve
section 111(d) state plans that are more stringent on
this basis. See FCC v. Fox Television Stations, Inc.,
556 U.S. 502 (2009). However, for the reasons
discussed in this preamble, the EPA is not at this
stage prejudging the approvability of any future
plan submission in this regard and will evaluate
any plan submission, including one that is more
stringent than what the BSER requires, on an
individual basis through notice-and-comment
rulemaking.
255 In
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In response to the commenters who
contend the EPA has the authority to
approve more stringent state plans, as
an initial matter, the EPA notes that the
Court’s decision in Union Electric on its
face does not apply to state plans under
CAA section 111(d). The decision
specifically evaluated whether the EPA
has the authority to approve a SIP under
section 110 that is more stringent than
what is necessary to attain and maintain
the NAAQS. The Court specifically
looked to the requirements in CAA
section 110(a)(2)(A) as part of its
analysis, a provision that is wholly
separate and distinct from CAA section
111(d). CAA section 110(a)(2)(A)
requires SIPs to include any assortment
of measures that may be necessary or
appropriate to meet the ‘‘applicable
requirements’’ of the CAA, which
largely relate to the attainment and
maintenance of the NAAQS. CAA
section 111(d), by contrast, directs state
plans to establish standards of
performance for existing sources that
reflect the degree of emission limitation
achievable through the application of
the BSER that EPA has determined is
adequately demonstrated—and CAA
section 111(d) expressly provides that it
cannot be used to regulate NAAQS
pollutants. Because the Court’s holding
was in the context of section 110 and
not CAA section 111(d), the EPA
believes that Union Electric does not
control the question of whether CAA
section 111(d) state plans may be more
stringent than federal requirements.
Thus, Union Electric and the SIP
issues that it addresses are
distinguishable from the CAA section
111(d) context. States have broad
discretion under section 110 to select
the measures for inclusion in their SIPs
to meet the NAAQS, which are healthor welfare-based standards not
predicated on the application of any
particular technology, whereas state
plans under 111(d) must establish
standards of performance, which are
defined at CAA section 111(a)(1) as
reflecting the degree of emission
limitation achievable through
application of the BSER at a source.
However, the EPA is mindful that it
does not prejudge the approvability of
any state plan submission, but rather
must determine whether it is
‘‘satisfactory’’ through undertaking
notice-and-comment rulemaking.256
Further, some issues of approvability
are most appropriately handled through
the submission, review, and approval or
disapproval processes (with approvals
and disapprovals then being subject to
judicial review). The EPA anticipates
256 See
CAA section 111(d)(2), 40 CFR 60.27a(b).
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that some states may wish to apply
additional measures beyond those that
the EPA has identified as BSER when
setting the standard of performance,
which states may believe are better
suited to particular existing sources
within their jurisdiction. The EPA
notes, as stated above, that the
comments suggesting that the EPA does
not have the authority to approve a state
plan that establishes standards of
performance for existing sources more
stringent than those that would result
from an application of the BSER
identified by the EPA have merit.
However, the EPA believes that the
question of whether it has the authority
to approve, and thereby render federally
enforceable, a state plan that establishes
standards of performance that are more
stringent than those that would result
from the application of the BSER that
the EPA has identified is addressed
properly in the context of evaluating an
individual state plan.
While the EPA does not prejudge the
approvability of a state plan that
establishes standards of performance for
existing sources within the state’s
jurisdiction that are more stringent than
those that would result from the
application of the BSER that the EPA
has identified, there are clear principles
and limitations imposed by CAA section
111(d) that will apply to the EPA’s
review of any state plan. As a first
principle, states must apply the BSER
measures, as further described in
section III.E. of the preamble, and derive
a standard of performance that reflects
the degree of emission limitation
achievable through application of the
candidate technologies, taking into
account remaining useful life and other
factors as appropriate.
As a second principle, whatever the
scope of a state’s authority under state
law may be to design a scheme to meet
the emissions guidelines, the EPA’s
authority to approve state plans that
contain standards of performance for
existing sources only extends to
measures that are authorized statutorily.
Specifically, the EPA’s authority is
constrained to approving measures that
comport with the statutory
interpretations, including
interpretations of the limitations on
‘‘standards of performance’’ and the
underlying BSER. For example, CAA
section 111(d)(1) clearly contemplates
that state plans may only contain
requirements for existing sources, and
not other entities. Therefore, in
implementing the ACE rule, the EPA
may not approve state plan
requirements on entities other than
existing EGUs, which are the designated
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facilities under this rule.257 Another
example that would exceed the EPA’s
authority is a state plan that includes
standards of performance or
implementation measures that do not
result in emission reductions from an
individual designated facility, such as
the use of biomass or emissions trading,
for the reasons discussed at section
III.E.4.c. and III.F.2.a, respectively.
Finally, the EPA does not have the
authority to approve measures that
purport to be standards of performance
but that actually do not meet the
statutory and regulatory terms for such
standards. For example, under ACE, the
EPA cannot approve a standard that is
a requirement for a designated facility
shut down. Such a standard is an
operational standard rather than a
standard of performance.258 The EPA
has not authorized the use of
operational standards under CAA
section 111(h) because the EPA has
determined that it is feasible to
prescribe a standard of performance for
this source category and pollutant,
expressed as an emission rate.259
As previously described, the EPA
must review state plans, including plans
that establish standards of performance
for a particular existing source or
sources that are more stringent than the
standards that would result from
application of the BSER, through noticeand-comment rulemaking to determine
whether they are ‘‘satisfactory’’. This
review includes ensuring that the state
257 Section 111(d) clearly identifies that the
regulated entity under this provision is an existing
source that would be of the same source category
as a new source regulated under section 111(b), i.e.,
a designated facility, as defined at 40 CFR 60.21(b).
If the EPA were to approve a state plan that
contained provisions regulating entities other than
designated facilities, that approval would give the
EPA (and citizen groups) federal enforcement
authority over such entities. The EPA believes such
a result would be contrary to statements by the U.S.
Supreme Court that caution an agency against
interpreting its statutory authority in a way that
‘‘would bring about an enormous and
transformative expansion in [its] regulatory
authority without clear congressional
authorization,’’ Utility Air Regulatory Group v. EPA,
134 S. Ct. 2427, 2444 (2014).
258 This example is distinguishable from the one
described in section IV.H. where a state chooses to
rely on a source’s remaining useful life in
establishing a less stringent standard of
performance for that source than would otherwise
result from an application of the BSER. In that
instance, a state would include the shutdown date
as a measure for implementation of a standard of
performance, as required under section
111(d)(1)(B).
259 The EPA also notes that for purposes of a
federal plan, the EPA is limited to promulgating a
standard of performance, which, as defined by
section 111(a)(1) must reflect the degree of emission
limitation achievable by the BSER; in promulgating
a standard of performance under a federal plan, the
statute directs the EPA to take into account, among
other factors, remaining useful life of the source to
which the standard applies. See section 111(d)(2).
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plan submission does not contravene
the statute by including measures that
the EPA has no authority to approve or
enforce as a matter of federal law, and
that the state actually has evaluated the
BSER in setting a standard. Though the
EPA lacks the authority to approve
certain measures, thereby rendering
them federally enforceable, nothing
precludes states from implementing or
enforcing such requirements as a matter
of state law.260
G. Impacts of the Affordable Clean
Energy Rule
1. What are the air impacts?
In the RIA for this action, the Agency
provides a full benefit-cost analysis of
an illustrative policy scenario
representing ACE, which models
adoption of HRI measures at coal-fired
EGUs. This illustrative policy scenario
represents one set of potential outcomes
of state determinations of standards of
performance and compliance with those
standards by affected coal-fired EGUs.
Throughout the RIA, the illustrative
policy scenario is compared against a
single baseline that does not include the
CPP. As described in Chapter 2 of the
RIA, the EPA believes that a single
baseline without the CPP represents a
reasonable future against which to
assess the potential impacts of the ACE
rule. The EPA also provides analysis in
Chapter 2 of the RIA that satisfies any
need for regulatory impact analysis that
may be required by statute or executive
order for the repeal of the CPP.
The EPA has identified the BSER to
be HRI. The EPA is providing states
with a list of candidate HRI technologies
that must be evaluated when
establishing standards of performance.
The cost, suitability, and potential
improvement for any of these HRI
technologies is dependent on a range of
unit-specific factors such as the size,
age, fuel use, and the operating and
maintenance history of the unit. As
such, the HRI potential can vary
significantly from unit to unit. The EPA
does not have sufficient information to
assess HRI potential on a unit-by-unit
basis. Therefore, any analysis of the
final rule is illustrative. Nonetheless,
the EPA believes that such illustrative
analyses can provide important insights.
In the RIA, the EPA evaluated an
illustrative policy scenario that assumes
HRI potential and costs will differ based
on unit size and efficiency. To establish
categories and HRI potential for use in
the RIA, the EPA developed a
methodology that is explained in
Chapter 1 of the RIA. Designated
facilities were grouped into twelve
groups based on three size categories
and four efficiency categories. Cost and
performance assumptions for the
candidate technologies were applied to
the groupings to establish representative
and illustrative assumptions for use in
the RIA. The EPA then assumed these
varying levels of HRI potential and costs
32561
for the different groups in the power
sector and emissions modeling as an
illustration of the potential impacts.
The EPA evaluates the potential
impacts of the illustrative policy
scenario using the present value (PV) of
costs, benefits, and net benefits,
calculated for the years 2023–2037 from
the perspective of 2016, using both a
three percent and seven percent end-ofperiod discount rate. In addition, the
EPA presents the assessment of costs,
benefits, and net benefits for specific
snapshot years, consistent with historic
practice. These specific snapshot years
are 2025, 2030, and 2035.
Overall, the impacts of the illustrative
policy scenario in terms of change in
emissions, compliance costs, and other
energy-sector effects are small compared
to the recent market-driven changes that
have occurred in the power sector.
These larger industry trends are
discussed in detail in Chapter 2 of the
RIA. In evaluating the significance of
the illustrative policy scenario, as
presented in the RIA and summarized
here, it is important for context to
understand that these impacts are
modest and do not diverge dramatically
from baseline expectations.
Emissions are projected to be lower
under the illustrative policy scenario
than under the baseline. Table 3 shows
projected aggregate emission decreases
for the illustrative policy scenario,
relative to the baseline, for CO2, SO2 and
NOX from the electricity sector.
TABLE 3—PROJECTED CO2, SO2, AND NOX ELECTRICITY SECTOR EMISSION IMPACTS FOR THE ILLUSTRATIVE POLICY
SCENARIO, RELATIVE TO THE BASELINE
[2025, 2030, and 2035]
CO2
(million short
tons)
2025 .............................................................................................................................................
2030 .............................................................................................................................................
2035 .............................................................................................................................................
(12)
(11)
(9.3)
SO2
(thousand
short tons)
(4.1)
(5.7)
(6.4)
NOX
(thousand
short tons)
(7.3)
(7.1)
(6.0)
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Note: All estimates in this table are rounded to two significant figures.
The emissions changes in these tables
do not account for changes in HAP that
may occur as a result of this rule. For
projected impacts on mercury
emissions, please see Chapter 3 of the
RIA. The EPA was unable to project
impacts on other HAP emissions from
the illustrative policy scenario due to
methodology and resource limitations.
As noted earlier in this section, the
illustrative policy scenario is compared
against a baseline that does not include
the CPP. This is because the ACE action
only occurs after the repeal of the CPP.
260 See
Chapter 2 of the RIA discusses the
EPA’s analysis of the CPP repeal. It
explains how after reviewing the
comments and fully considering a
number of factors, the EPA ultimately
concluded that the most likely result of
implementation of the CPP would be no
change in emissions and therefore no
cost or changes in health benefits. This
conclusion (i.e., that repeal of the CPP
has little or no effect against a baseline
that includes the CPP) is appropriate for
several reasons, consistent with OMB’s
guidance that the baseline for analysis
CAA section 116; 40 CFR 60.24a(f).
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261 OMB
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‘‘should be the best assessment of the
way the world would look absent the
proposed action.’’ 261 It is the EPA’s
consideration of the weight of the
evidence, taking into account the
totality of the available information, as
presented in Chapter 2 of the RIA, that
leads to the finding and conclusion that
there is likely to be no difference
between a world where the CPP is
implemented and one where it is not.
As further explained in Chapter 2 of the
RIA, the EPA comes to this conclusion
not through the use of a single analytical
circular A–4, at 15.
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scenario or modeling alone, but rather
through the weight of evidence that
includes: Several IPM scenarios that
explore a range of changes to
assumptions about implementation of
the CPP; consideration of the ongoing
evolution and change of the electric
sector; and recent commitments by
many utilities that include long-term
CO2 reductions across the EGU fleet.
2. What are the energy impacts?
This final action has energy market
implications. Overall, the analysis to
support this action indicates that there
are important power sector impacts that
are worth noting, although they are
small relative to recent market-driven
changes in the sector or compared to
some other EPA air regulatory actions
for EGUs. The estimated impacts reflect
the EPA’s illustrative analysis of the
final action. States are afforded
considerable flexibility in the final
action, and thus the impacts could be
different to the extent states make
different choices than those assumed in
the illustrative analysis.
Table 4 presents a variety of energy
market impacts for 2025, 2030, and 2035
for the illustrative policy scenario
representing ACE, relative to the
baseline.
TABLE 4—SUMMARY OF CERTAIN ENERGY MARKET IMPACTS FOR THE ILLUSTRATIVE POLICY SCENARIO, RELATIVE TO THE
BASELINE
[Percent change]
2025
(%)
Retail electricity prices ...........................................................................................................
Average price of coal delivered to the power sector ............................................................
Coal production for power sector use ...................................................................................
Price of natural gas delivered to power sector .....................................................................
Price of average Henry Hub (spot) .......................................................................................
Natural gas use for electricity generation ..............................................................................
Energy market impacts are discussed
more extensively in the RIA found in
the rulemaking docket.
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The power industry’s ‘‘compliance
costs’’ are represented in this analysis as
the change in electric power generation
costs between the baseline and
illustrative policy scenario, including
the cost of monitoring, reporting, and
recordkeeping. In simple terms, these
costs are an estimate of the increased
power industry expenditures required to
implement the HRI required by the final
action.
The compliance assumptions—and,
therefore, the projected compliance
costs—set forth in this analysis are
illustrative in nature and do not
represent the plans that states may
ultimately pursue. The illustrative
policy scenario is designed to reflect, to
the extent possible, the scope and
nature of the final guidelines. However,
there is considerable uncertainty with
regards to the precise measures that
states will adopt to meet the final
requirements because there are
considerable flexibilities afforded to the
states in developing their state plans.
Table 5 presents the annualized
compliance costs of the illustrative
policy scenario.
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0.1
0.1
(1.1)
0.0
0.0
(0.4)
2035
(%)
0.1
0.0
(1.0)
(0.1)
0.0
(0.3)
0.0
(0.1)
(1.0)
(0.6)
(0.6)
0.0
illustrative policy scenario described
TABLE 5—COMPLIANCE COSTS FOR
THE ILLUSTRATIVE POLICY SCE- previously. The EPA refers to the
climate benefits as ‘‘targeted pollutant
NARIO, RELATIVE TO THE BASELINE
benefits’’ as they reflect the direct
benefits of reducing CO2, and to the
ancillary health benefits derived from
Year
Cost
reductions in emissions other than CO2
2025 ..........................................
290 as ‘‘co-benefits’’ as they are not direct
2030 ..........................................
280 benefits from reducing the targeted
2035 ..........................................
25 pollutant. To estimate the climate
Note: Compliance costs equal the projected benefits associated with changes in CO2
change in total power sector generating costs emissions, the EPA applied a measure of
plus the costs of monitoring, reporting, and the domestic social cost of carbon (SC–
recordkeeping.
CO2). The SC–CO2 is a metric that
estimates the monetary value of impacts
More detailed cost estimates are
associated with marginal changes in
available in the RIA included in the
CO2 emissions in a given year. The SC–
rulemaking docket.
CO2 estimates used in the RIA for these
4. What are the economic and
rulemakings focus on the direct impacts
employment impacts?
of climate change that are anticipated to
occur within U.S. borders.
Environmental regulation may affect
The estimated health co-benefits are
groups of workers differently, as
the monetized value of the human
changes in abatement and other
health benefits among populations
compliance activities cause labor and
other resources to shift. An employment exposed to changes in PM2.5 and ozone.
This rule is expected to alter the
impact analysis describes the
emissions of SO2 and NOX emissions,
characteristics of groups of workers
which will in turn affect the level of
potentially affected by a regulation, as
PM2.5 and ozone in the atmosphere.
well as labor market conditions in
Using photochemical modeling, the EPA
affected occupations, industries, and
predicted the change in the annual
geographic areas. Market and
employment impacts of this final action average PM2.5 and summer season ozone
across the U.S. for the years 2025, 2030,
are discussed more extensively in
and 2035 for the illustrative policy
Chapter 5 of the RIA for this final
scenario. The EPA next quantified the
action.
human health impacts and economic
5. What are the benefits?
value of these changes in air quality
The EPA reports the estimated impact using the environmental Benefits
on climate benefits from changes in CO2 Mapping and Analysis Program—
and the estimated impact on health
Community Edition (BENMAP–CE). The
benefits attributable to changes in SO2,
EPA quantified effects using
NOX, and PM2.5 emissions, based on the concentration-response parameters
[Millions of 2016$]
3. What are the compliance costs?
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detailed in the RIA, which are
consistent with those employed by the
Agency in the PM NAAQS and Ozone
NAAQS RIAs (U.S. EPA, 2012; 2015)
(Table 6).
TABLE 6—ESTIMATED ECONOMIC VALUE OF AVOIDED PM2.5 AND OZONE-ATTRIBUTABLE DEATHS AND ILLNESSES FOR THE
ILLUSTRATIVE POLICY SCENARIO USING ALTERNATIVE APPROACHES TO REPRESENTING PM2.5 EFFECTS
[95% Confidence interval in parentheses; millions of 2016$] a
2025
2030
2035
Ozone Benefits Summed With PM2.5 Benefits
3% Discount rate
No-threshold model b .......
Limited to above LML c ...
Effects above NAAQS d ..
$390 ($37 to $1,100)
to
$970 ($86 to $2,800)
$490 ($47 to $1,300)
to
$370 ($36 to $1,000)
$76 ($8 to $210) ........
to
to
$480 ($42 to $1,400)
$250 ($23 to $760) ....
$440 ($42 to $1,200)
$75 ($8 to $210) ........
to
to
$1,200 ($110 to
$3,500).
$520 ($47 to $1,500)
$260 ($23 to $770) ....
$550 ($52 to $1,500)
to
$480 ($25 to $1,300)
$90 ($10 to $250) ......
to
to
$510 ($48 to $1,400)
to
$450 ($22 to $1,200)
$90 ($10 to $250) ......
to
to
$1,400 ($120 to
$3,900).
$610 ($16 to $1,800).
$320 ($28 to $930).
Ozone Benefits Summed With PM2.5 Benefits
7% Discount rate
No-threshold model b .......
LML c
Limited to above
...
Effects above NAAQS d ..
$360 ($34 to $990) ....
to
$900 ($80 to $2,600)
$460 ($44 to $1,200)
to
$350 ($33 to $950) ....
$76 ($8 to $210) ........
to
to
$460 ($41 to $1,300)
$250 ($23 to $760) ....
$410 ($39 to $1,100)
$75 ($8 to $210) ........
to
to
$1,100 ($100 to
$3,200).
$500 ($44 to $1,400)
$260 ($23 to $770) ....
$1,300 ($110 to
$3,600).
$590 ($13 to $1,700).
$320 ($28 to $930).
a Values
rounded to two significant figures.
effects quantified using a no-threshold model. Low end of range reflects dollar value of effects quantified using concentration-response parameter from Krewski et al. (2009) and Smith et al. (2008) studies; upper end quantified using parameters from Lepeule et al. (2012) and Jerrett et al.
(2009). Full range of ozone effects is included, and ozone effects range from 19% to 22% of the estimated values.
c PM effects quantified at or above the Lowest Measured Level of each long-term epidemiological study. Low end of range reflects dollar value of
effects quantified down to LML of Krewski et al. (2009) study (5.8 μg/m3); high end of range reflects dollar value of effects quantified down to LML of
Lepeule et al. (2012) study (8 μg/m3). Full range of ozone effects is still included, and ozone effects range from 20% to 49% of the estimated values.
d PM effects only quantified at or above the annual mean of 12 to provide insight regarding the fraction of benefits occurring above the NAAQS.
Range reflects effects quantified using concentration-response parameters from Smith et al. (2008) study at the low end and Jerrett et al. (2009) at
the high end. Full range of ozone effects is still included, and ozone effects range from 91% to 95% of the estimated values.
b PM
To give readers insight to the
distribution of estimated benefits
displayed in Table 6, the EPA also
reports the PM benefits according to
alternative concentration cut-points and
concentration-response parameters. The
percentage of estimated avoided PM2.5related deaths occurring in 2025 below
the lowest measured levels (LML) of the
two long-term epidemiological studies
the EPA uses to estimate risk varies
between 5 percent (Krewski et al.
2009) 262 and 69 percent (Lepeule et al.
2012).263 The percentage of estimated
avoided premature deaths occurring in
2025 above the LML and below the
NAAQS ranges between 94 percent
(Krewski et al. 2009) and 31 percent
(Lepeule et al. 2012). Less than 1
percent of the estimated avoided
premature deaths occur in 2025 above
the annual mean PM2.5 NAAQS of 12
mg/m3.
Table 7 reports the combined
domestic climate benefits and ancillary
health co-benefits attributable to
changes in SO2 and NOX emissions
estimated for 3 percent and 7 percent
discount rates in the years 2025, 2030,
and 2035, in 2016 dollars. This table
reports the air pollution effects
calculated using PM2.5 log-linear no
threshold concentration-response
functions that quantify risk associated
with the full range of PM2.5 exposures
experienced by the population (U.S.
EPA, 2009 264; U.S. EPA, 2011 265; NRC,
2002 266).
TABLE 7—MONETIZED BENEFITS FOR THE ILLUSTRATIVE POLICY SCENARIO, RELATIVE TO THE BASELINE
[Millions of 2016$]
Values calculated using 3% discount rate
Domestic
climate
benefits
2025 ..........................................
2030 ..........................................
2035 ..........................................
81
81
72
Values calculated using 7% discount rate
Ancillary
health
co-benefits
Total
benefits
Domestic
climate
benefits
390 to 970 .....
490 to 1,200 ..
550 to 1,400 ..
470 to 1,000 ..........
570 to 1,300 ..........
620 to 1,400 ..........
Ancillary
health
co-benefits
13
14
13
360 to 900 .............
460 to 1,100 ..........
510 to 1,300 ..........
Total
benefits
370 to 920.
470 to 1,100.
520 to 1,300.
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Notes: All estimates are rounded to two significant figures, so figures may not sum due to independent rounding. Climate benefits reflect the
value of domestic impacts from CO2 emissions changes. The ancillary health co-benefits reflect the sum of the PM2.5 and ozone co-benefits and
reflect the range based on adult mortality functions (e.g., from Krewski et al. (2009) with Smith et al. (2009) to Lepeule et al. (2012) with Jerrett
et al. (2009)). The health co-benefits do not account for direct exposure to NO2, SO2, and HAP; ecosystem effects; or visibility impairment.
262 Krewski, D., Jerrett, M., Burnett, R.T., Ma, R.,
Hughes, E., Shi, Y., Turner, M.C., Pope, C.A.,
Thurston, G., Calle, E.E., Thun, M.J., Beckerman, B.,
DeLuca, P., Finkelstein, N., Ito, K., Moore, D.K.,
Newbold, K.B., Ramsay, T., Ross, Z., Shin, H.,
Tempalski, B., 2009. Extended follow-up and
spatial analysis of the American Cancer Society
study linking particulate air pollution and
mortality. Res. Rep. Health. Eff. Inst. 5–114–36.
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263 Lepeule, J., Laden, F., Dockery, D., Schwartz,
J., 2012. Chronic exposure to fine particles and
mortality: An extended follow-up of the Harvard
Six Cities study from 1974 to 2009. Environ. Health
Perspect. https://doi.org/10.1289/ehp.1104660.
264 U.S. EPA, 2009. Integrated Science
Assessment for Particulate Matter. U.S.
Environmental Protection Agency, National Center
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for Environmental Assessment, Research Triangle
Park, NC.
265 U.S. EPA, 2011. Policy Assessment for the
Review of the Particulate Matter National Ambient
Air Quality Standards. Research Triangle Park, NC.
266 NRC, 2002. Estimating the Public Health
Benefits of Proposed Air Pollution Regulations.
National Research Council. Washington, DC.
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In general, the EPA is more confident
in the size of the risks estimated from
simulated PM2.5 concentrations that
coincide with the bulk of the observed
PM concentrations in the
epidemiological studies that are used to
estimate the benefits. Likewise, the EPA
is less confident in the risk the EPA
estimates from simulated PM2.5
concentrations that fall below the bulk
of the observed data in these studies.267
Furthermore, when setting the 2012 PM
NAAQS, the Administrator also
acknowledged greater uncertainty in
specifying the ‘‘magnitude and
significance’’ of PM-related health risks
at PM concentrations below the
NAAQS. As noted in the preamble to
the 2012 PM NAAQS final rule, ‘‘EPA
concludes that it is not appropriate to
place as much confidence in the
magnitude and significance of the
associations over the lower percentiles
of the distribution in each study as at
and around the long-term mean
concentration.’’ 268
Monetized co-benefits estimates
shown here do not include several
important benefit categories, such as
direct exposure to SO2, NOX, and HAP
including mercury and hydrogen
chloride. Although the EPA does not
have sufficient information or modeling
available to provide monetized
estimates of changes in exposure to
these pollutants for this rule, the EPA
includes a qualitative assessment of
these unquantified benefits in the RIA.
For more information on the benefits
analysis, please refer to the RIA for
these rules, which is available in the
rulemaking docket.
IV. Changes to the Implementing
Regulations for CAA Section 111(d)
Emission Guidelines
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The EPA is finalizing new regulations
to implement CAA section 111(d)
(implementing regulations) which will
be codified at 40 CFR part 60, subpart
Ba. The current implementing
regulations at 40 CFR part 60, subpart B,
were originally promulgated in 1975.269
Section 111(d)(1) of the CAA explicitly
requires that the EPA prescribe
267 The Federal Register notice for the 2012 PM
NAAQS indicates that ‘‘[i]n considering this
additional population level information, the
Administrator recognizes that, in general, the
confidence in the magnitude and significance of an
association identified in a study is strongest at and
around the long-term mean concentration for the air
quality distribution, as this represents the part of
the distribution in which the data in any given
study are generally most concentrated. She also
recognizes that the degree of confidence decreases
as one moves towards the lower part of the
distribution.’’ See 78 FR 3159 (January 15, 2013).
268 See 78 FR 3154, January 15, 2013.
269 See 40 FR 53346.
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regulations establishing a procedure
similar to that under section 110 of the
CAA for states to submit plans to the
EPA establishing standards of
performance for existing sources within
their jurisdiction. The implementing
regulations have not been significantly
revised since their original
promulgation in 1975. Notably, the
implementing regulations do not reflect
CAA section 111(d) in its current form
as amended by Congress in 1977, and do
not reflect CAA section 110 in its
current form as amended by Congress in
1990. Accordingly, the EPA believes
that certain portions of the
implementing regulations do not
appropriately align with CAA section
111(d), contrary to that provision’s
mandate that the EPA’s regulations be
‘‘similar’’ in procedure to the provisions
of section 110. Therefore, the EPA
proposed to promulgate new
implementing regulations that are in
accordance with the statute in its
current form (See 83 FR 44746–44813).
Agencies have the ability to revisit prior
decisions, and the EPA believes it is
appropriate to do so here in light of the
potential mismatch between certain
provisions of the implementing
regulations and the statute.270 While the
preamble for the final new
implementing regulations are part of the
same Federal Register document as
certain other Agency rules (specifically,
the repeal of the CPP and the
promulgation of the ACE rule), these
new implementing regulations are a
separate and distinct rulemaking with
its own regulatory text and response to
comments. The implementing
regulations are not dependent on the
other final actions contained in this
Federal Register document.
The EPA proposed to largely carry
over the current implementing
regulations in 40 CFR part 60, subpart
B to a new subpart that will be
applicable to emission guidelines that
are finalized either concurrently with or
subsequently to final promulgation of
the new implementing regulations, as
well as to state plans or federal plans
associated with such emission
guidelines. For purposes of regulatory
certainty, the EPA believes it is
appropriate to apply these new
implementing regulations prospectively
and retain the existing implementing
270 The authority to reconsider prior decisions
exists in part because the EPA’s interpretations of
statutes it administers ‘‘[are not] instantly carved in
stone,’’ but must be evaluated ‘‘on a continuing
basis.’’ Chevron U.S.A. Inc. v. NRDC, Inc., 467 U.S.
837, 863–64 (1984). Indeed, ‘‘[a]gencies obviously
have broad discretion to reconsider a regulation at
any time.’’ Clean Air Council v. Pruitt, 862 F.3d 1,
8–9 (D.C. Cir. 2017).
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regulations as applicable to CAA section
111(d) emission guidelines and
associated state plans or federal plans
that were promulgated previously.
Additionally, because the original
implementing regulations also applied
to regulations promulgated under CAA
section 129 (a provision enacted in the
1990 Amendments that builds on CAA
section 111 but provides specific
authority to address facilities that
combust waste), which has its own
statutory requirements distinct from
those of CAA section 111(d), the
original implementing regulations under
40 CFR part 60, subpart B continue to
apply to EPA-regulations promulgated
under CAA section 129, and any
associated state plans and federal plans.
The new implementing regulations are
thus applicable only to CAA section
111(d) regulations and associated state
plans issued solely under the authority
of CAA section 111(d).
The EPA is aware that there are a
number of cases where state plan
submittal and review processes are still
ongoing for existing CAA section 111(d)
emission guidelines. Because the EPA is
finalizing new state plan and federal
plan timing requirements under the
implementing regulations to more
closely align CAA section 111(d) with
both general CAA section 110 state
implementation plan (SIP) and federal
implementation plan (FIP) timing
requirements, and because of the EPA’s
understanding from experience of the
realities of how long these actions
typically take, the EPA is applying the
new timing requirements to both
emission guidelines published after the
new implementing regulations are
finalized and to all ongoing emission
guidelines already published under
CAA section 111(d). The EPA is
finalizing applicability of the timing
changes to all ongoing 111(d)
regulations for the same reasons that the
EPA is changing the timing
requirements prospectively. Based on
years of experience working with states
to develop SIPs under CAA section 110,
the EPA believes that given the
comparable amount of work, effort,
coordination with sources, and the time
required to develop state plans, more
time is necessary for the process. Giving
states three years to develop state plans
is more appropriate than the nine
months provided for under the existing
implementing regulations, considering
the workload required for state plan
development. These practical
considerations regarding the time
needed for state plan development are
also applicable and true for recent
emission guidelines where the state
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plan submittal and review process are
still ongoing.
For those provisions that are being
carried over from the existing
implementing regulations into the new
implementing regulations, the EPA is
not intending to substantively change
those provisions from their original
promulgation and continues to rely on
the record under which they were
promulgated. Therefore, the following
provisions remain substantively the
same from their original promulgation:
40 CFR 60.21a(a)–(d), (g)–(j)
(Definitions); 60.22a(a), 60.22a(b)(1)–(3),
(b)(5), (c) (Publication of emission
guidelines); 60.23a(a)–(c), (d)(3)–(5), (e)–
(h) (Adoption and submittal of state
plans; public hearings); 60.24a(a)–(d), (f)
(Standards of performance and
compliance schedules); 60.25a
(Emission inventories, source
surveillance, reports); 60.26a (Legal
authority); 60.27a(a), (e)–(f) (Actions by
the Administrator); 60.28a(b) (Plan
revisions by the state); and 60.29a (Plan
revisions by the Administrator).
As noted at proposal, the EPA is also
sensitive to potential confusion over
whether these new implementing
regulations would apply to emission
guidelines previously promulgated or to
state plans associated with prior
emission guidelines, so the EPA
proposed that the new implementing
regulations are applicable only to
emission guidelines and associated
plans developed after promulgation of
this regulation, including the emission
guidelines being proposed as part of this
action for GHGs and existing designated
facilities. The EPA is finalizing this
proposed applicability of the new
implementing regulations.
While the EPA is carrying over a
number of requirements from the
existing implementing regulations to the
new implementing regulations, the EPA
is finalizing specific changes to better
align the implementing regulations with
the statute. These changes are reflected
in the regulatory text for the new
implementing regulations, and include:
• An explicit provision allowing
specific emission guidelines to
supersede the requirements of the new
implementing regulations;
• Changes to the definition of
‘‘emission guidelines’’;
• Updated timing requirements for
the submission of state plans;
• Updated timing requirements for
the EPA’s action on state plans;
• Updated timing requirements for
the EPA’s promulgation of a federal
plan;
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• Updated timing requirement for
when increments of progress must be
included as part of a state plan;
• Completeness criteria and a process
for determining completeness of state
plan submissions similar to CAA
section 110(k)(1) and (2);
• Updated definition replacing
‘‘emission standard’’ with ‘‘standard of
performance’’;
• Usage of the internet to satisfy
certain public hearing requirements;
• Elimination of the distinction
between public health-based and
welfare-based pollutants in emission
guidelines; and
• Updated provision allowing for
consideration of remaining useful life
and other factors to be consistent with
CAA section 111(d)(1)(B).
Because the EPA is updating the
implementing regulations and many of
the provisions from the existing
implementing regulations are being
carried over, the EPA wants to be clear
and transparent with regard to the
changes that are being made to the
implementing regulations. As such, the
EPA is providing Table 8 that
summarizes the changes being made.
TABLE 8—SUMMARY OF CHANGES TO THE IMPLEMENTING REGULATIONS
New implementing regulations—Subpart Ba
for all future and ongoing CAA section 111(d) emission guidelines
Explicit authority for a new 111(d) emission guidelines requirement to
supersede these implementing regulations.
Use of term ‘‘standard of performance’’ ...................................................
‘‘Standard of performance’’ allows states to include design, equipment,
work practice, or operational standards when the EPA determines it
is not feasible to prescribe or enforce a standard of performance,
consistent with the requirements of CAA section 111(h).
State submission timing: 3 years from promulgation of final emission
guidelines.
EPA action on state plan submission timing: 12 months after determination of completeness.
Timing for EPA promulgation of a federal plan, as appropriate: 2 years
after finding of plan submission to be incomplete, finding of failure to
submit a plan, or disapproval of state plan.
Increments of progress are required if compliance schedule for a state
plan is longer than 24 months after the plan is due.
Completeness criteria and process for state plan submittals ..................
Usage of the internet to satisfy certain public hearing requirements ......
No distinction made in treatment between health-based and welfarebased pollutants; states may consider remaining useful life and other
factors regardless of type of pollutant.
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A. Regulatory Background
The Agency also is, in this action,
clarifying the respective roles of the
states and the EPA under section 111(d),
including by finalizing revisions to the
regulations implementing that section in
40 CFR part 60 subpart B. CAA section
111(d)(1) states that the EPA
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Existing implementing regulations—Subpart B
for all previously promulgated CAA section 111(d) emission guidelines
No explicit authority.
Use of term ‘‘emission standard’’.
‘‘Emission standard’’ allows states to prescribe equipment specifications when the EPA determines it is clearly impracticable to establish
an emission standard.
State submission timing: 9 months from promulgation of final emission
guidelines.
EPA action on state plan submission timing: 4 months after submittal
deadline.
Timing for EPA promulgation of a federal plan, as appropriate: 6
months after submittal deadline.
Increments of progress are required if compliance schedule for a state
plan is longer than 12 months after the plan is due.
No analogous requirement.
No analogous requirement.
Different provisions for health-based and welfare-based pollutants;
state plans must be as stringent as the EPA’s emission guidelines
for health-based pollutants unless variance provision is invoked.
‘‘Administrator shall prescribe
regulations which shall establish a
procedure . . . under which each state
shall submit to the Administrator a plan
which (A) establishes standards of
performance for any existing source for
any air pollutant . . . to which a
standard of performance under this
section would apply if such existing
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source were a new source, and (B)
provides for the implementation and
enforcement of such standards of
performance.’’ 271 CAA section 111(d)(1)
also requires the Administrator to
‘‘permit the State in applying a standard
of performance to any particular source
271 See
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under a plan submitted under this
paragraph to take into consideration,
among other factors, the remaining
useful life of the existing source to
which such standard applies.’’272
As the statute provides, the EPA’s
authorized role under CAA section
111(d)(1) is to develop a procedure for
states to establish standards of
performance for existing sources.
Indeed, the Supreme Court has
acknowledged the role and authority of
states under CAA section 111(d): This
provision allows ‘‘each State to take the
first cut at determining how best to
achieve EPA emissions standards within
its domain.’’ 273 The Court addressed the
statutory framework as implemented
through regulation, under which the
EPA promulgates emission guidelines
and the states establish performance
standards: ‘‘For existing sources, EPA
issues emissions guidelines; in
compliance with those guidelines and
subject to federal oversight, the States
then issue performance standards for
stationary sources within their
jurisdiction, [42 U.S.C.] 7411(d)(1).’’ 274
As contemplated by CAA section
111(d)(1), states possess the authority
and discretion to establish appropriate
standards of performance for existing
sources. CAA section 111(a)(1) defines
‘‘standard of performance’’ as ‘‘a
standard of emissions of air pollutants
which reflects’’ what is commonly
referred to as the ‘‘Best System of
Emission Reduction’’ or ‘‘BSER’’—i.e.,
‘‘the degree of emission limitation
achievable through the application of
the best system of emission reduction
which (taking into account the cost of
achieving such reduction and any nonair quality health and environmental
impact and energy requirements) the
Administrator determines has been
adequately demonstrated.’’275
In order to effectuate the Agency’s
role under CAA section 111(d)(1), the
EPA promulgated implementing
regulations in 1975 to provide a
framework for subsequent EPA rules
and state plans under CAA section
111(d).276 The implementing regulations
reflect the EPA’s principal task under
CAA section 111(d)(1), which is to
develop a procedure for states to
establish standards of performance for
existing sources through state plans.
The EPA is promulgating an updated
version of the implementing regulations.
Under the revised implementing
272 Id.
273 Am. Elec. Power Co. v. Connecticut, 131 S. Ct.
2527, 2539 (2011).
274 Id. at 2537–38.
275 42 U.S.C. 7411(a)(1) (emphasis added).
276 See 40 CFR part 60, subpart B (hereafter
referred to as the ‘‘implementing regulations’’).
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regulations, the EPA effectuates its role
by publishing ‘‘emission guidelines’’ 277
that, among other things, contain the
EPA’s determination of the BSER for the
category of existing sources being
regulated.278 In undertaking this task,
the EPA ‘‘will specify different
emissions guidelines . . . for different
sizes, types and classes of . . . facilities
when costs of control, physical
limitations, geographic location, or
similar factors make subcategorization
appropriate.’’ 279
In short, under the EPA’s revised
regulations implementing CAA section
111(d), which tracks with the existing
implementing regulations in this regard,
the guideline documents serve to
‘‘provide information for the
development of state plans.’’ 280 The
‘‘emission guidelines,’’ reflecting the
degree of emission limitation achievable
through application of the BSER
determined by the Administrator to be
adequately demonstrated, are the
principal piece of information states
rely on to develop their plans that
establish standards of performance for
existing sources. Additionally, the Act
requires that the EPA permit states to
consider, ‘‘among other factors, the
remaining useful life’’ of an existing
source in applying a standard of
performance to such sources.281
Additionally, while CAA section
111(d)(1) clearly authorizes states to
develop state plans that establish
performance standards and provides
states with certain discretion in
determining appropriate standards,
CAA section 111(d)(2) provides the EPA
specifically a role with respect to such
state plans. This provision authorizes
the EPA to prescribe a plan for a state
‘‘in cases where the State fails to submit
a satisfactory plan.’’ 282 The EPA
therefore is charged with determining
whether state plans developed and
submitted under CAA section 111(d)(1)
are ‘‘satisfactory,’’ and the new
implementing regulations at 40 CFR
60.27a accordingly provide timing and
procedural requirements for the EPA to
make such a determination. Just as
guideline documents may provide
information for states in developing
277 See section IV.B. for the changes to the
definition of ‘‘emission guidelines’’ as part of the
EPA’s new implementing regulations.
278 See 40 CFR 60.22a(b) (‘‘Guideline documents
published under this section will provide
information for the development of State plans,
such as: . . . (4) An emission guideline that reflects
the application of the best system of emission
reduction (considering the cost of such reduction)
that has been adequately demonstrated.’’).
279 40 CFR 60.22(b)(5).
280 40 CFR 60.22a(b).
281 42 U.S.C. 7411(d)(1).
282 Id. 7411(d)(2)(A).
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plans that establish standards of
performance, they may also provide
information for the EPA to consider
when reviewing and taking action on a
submitted state plan, as the new
implementing regulations at 40 CFR
60.27a(c) reference the ability of the
EPA to find a state plan as
‘‘unsatisfactory because the
requirements of (the implementing
regulations) have not been met.’’ 283
B. Provision for Superseding
Implementing Regulations
The EPA proposed to include a
provision in the new implementing
regulations that expressly allows for any
emission guidelines to supersede the
applicability of the implementing
regulations as appropriate, parallel to a
provision contained in the 40 CFR part
63 General Provisions implementing
section 112 of the CAA. The EPA cannot
foresee all of the unique circumstances
and factors associated with particular
future emission guidelines, and
therefore different requirements may be
necessary for a particular 111(d)
rulemaking that the EPA cannot
envision at this time. The EPA is
finalizing this provision as proposed.
C. Changes to the Definition of
‘‘Emission Guidelines’’
The existing implementation
regulations under 40 CFR 60.21(e)
contain a definition of ‘‘emission
guidelines,’’ defining them as guidelines
which reflect the degree of emission
reduction achievable through the
application of the BSER which (taking
into account the cost of such reduction)
the Administrator has determined has
been adequately demonstrated for
designated facilities. This definition
additionally references that emission
guidelines may be set forth in 40 CFR
part 60, subpart C, or a ‘‘final guideline
document’’ published under 40 CFR
60.22(a). While the implementing
regulations do not define the term ‘‘final
guideline document,’’ 40 CFR 60.22
generally contains a number of
requirements pertaining to the contents
of guideline documents, which are
intended to provide information for the
development of state plans.284 The
preambles for both the proposed and
final existing implementing regulations
suggest that ‘‘emission guidelines’’
283 See also 40 FR 53343 (‘‘If there is to be
substantive review, there must be criteria for the
review, and EPA believes it is desirable (if not
legally required) that the criteria be made known in
advance to the States, to industry, and to the
general public. The emission guidelines, each of
which will be subjected to public comment before
final adoption, will serve this function.’’).
284 See 40 CFR 60.22(b).
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would be guidelines provided by the
EPA that reflect the degree of emission
limitation achievable by the BSER. In
the proposal for this action, the EPA
described that it is important to provide
information on such degree of emission
limitation in order to guide states in
their establishment of standards of
performance as required under CAA
section 111(d). However, the EPA also
explained that it did not believe
anything in CAA section 111(a)(1) or
111(d) compels the EPA to provide a
presumptive emission standard that
reflects the degree of emission
limitation achievable by application of
the BSER. Accordingly, as part of the
proposed new implementing
regulations, the EPA proposed to redefine ‘‘emission guidelines’’ as final
guideline documents published under
40 CFR 60.22a(a) that include
information on the degree of emission
reduction achievable through the
application of the BSER which (taking
into account the cost of such reduction
and any non-air quality health and
environmental impact and energy
requirements) the EPA has determined
has been adequately demonstrated for
designated facilities.
The EPA received substantial
comments regarding this proposed
change to the implementing regulations.
Commenters contend that because CAA
section 111(a)(1) requires the EPA to
identify the BSER, it is also the EPA’s
statutory responsibility to identify the
degree of emission limitation achievable
through application of the BSER.
According to commenters, the
identification of a BSER without an
accompanying emission limitation
reflecting its application is an
incomplete identification of the system
of emission reduction itself, as it is the
manner and degree of application of a
system that often determines the
quantity and cost of the emission
reductions achieved, as well as any
implications for energy requirements—
factors that are statutorily a component
of the BSER analysis delegated to the
EPA.
The EPA has considered carefully
these comments and is not finalizing the
proposed changes to the definition of
‘‘emission guidelines’’ regarding the
aspect of such guidelines reflecting the
degree of emission limitation achievable
through application of the BSER. The
EPA is finalizing a definition of
‘‘emission guidelines’’ that requires
them to reflect the degree of emission
limitation of emission achievable
through application of the BSER, as well
as updates to the definition consistent
with CAA section 111(a)(1) (e.g.,
including a reference to ‘‘energy
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requirements’’ which was not present in
the original definition). Relatedly, the
EPA is not finalizing changes to
proposed 40 CFR 60.21a(e) requiring the
EPA in emission guidelines to provide
information on the degree of emission
limitation achievable through
application of the BSER rather than
such degree of emission limitation itself.
While the statute is ambiguous as to
whose role (i.e., the EPA’s or the states’)
it is to determine the degree of emission
limitation achievable through
application of the BSER in the context
of standards of performance for existing
sources, the EPA believes it is
reasonable to construe this aspect of
CAA section 111 as included within the
EPA’s obligation to determine the BSER.
While states are better positioned to
evaluate source-specific factors and
circumstances in establishing standards
of performance, the EPA agrees with
commenters that because the EPA
evaluates components such as cost of
emission reductions and environmental
impacts on a broader, systemwide scale
when determining the BSER, if a state
instead were to determine the degree of
emission limitation achievable for the
sources within its borders, these factors
will naturally be re-balanced on a
smaller scale than the EPA’s calculation
and likely re-define the BSER in the
process. Under the cooperative
federalism structure of CAA section 111,
the EPA determines the BSER and the
associated level of stringency (i.e., the
degree of emission limitation achievable
through application of the BSER), but
states may where appropriate relax this
level of stringency when establishing
standards of performance by accounting
for source-specific factors such as
remaining useful life. Accordingly,
given the EPA’s role in determining the
BSER, the EPA is retaining the
requirement from the original
implementing regulations that emission
guidelines reflect the degree of emission
limitation achievable through
application of the BSER, rather than
finalizing the proposed change that
emission guidelines provide
information on such degree of emission
limitation achievable.
D. Updates to Timing Requirements
The timing requirements in the
existing implementing regulations for
state plan submissions, the EPA’s action
on state plan submissions, and the
EPA’s promulgation of federal plans
generally track the timing requirements
for SIPs and federal implementation
plans (FIPs) under the 1970 version of
the CAA. The existing implementing
regulations at 60.23(a)(1) require state
plans to be submitted to the EPA within
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nine months after publication of final
emission guidelines, unless otherwise
specified in emission guidelines.
Congress subsequently revised the SIP
and FIP timing requirements in section
110 as part of the 1990 CAA
Amendments. The EPA proposed to
update accordingly the timing
requirements regarding state and federal
plans under CAA section 111(d) to be
consistent with the current timing
requirements for SIPs and FIPs under
section 110.285
Commenters contend that premising
the proposed longer timelines for state
plans based on the timelines for SIPs
and FIPs is inappropriate because CAA
section 111(d) state plans are narrower
in scope and less complex than section
110 SIPs for a number of reasons.
According to commenters, these reasons
include: (1) Because state plans cover
one source category, whereas SIPs cover
the different types of sources whose
emissions must be reduced to meet an
ambient air quality standard; (2) because
sources under state plans are required to
meet an emission standard expressed as
a rate or mass limitation, whereas SIPs
are required to assure that ambient air
within a state stay below the NAAQS,
which requires monitoring, modeling,
and other complicated considerations;
and (3) EPA already does a substantial
percentage of the work for states in the
first instance by determining the BSER
and the degree of emission limitation
achievable through application of the
BSER.
While it is correct that the main
requirement under CAA section 111(d)
is for state plans to establish standards
of performance for designated facilities,
and that these existing-source
performance standards are informed by
the degree of emission limitation
achievable through application of the
BSER that EPA identifies, CAA section
111(d)(1)(B) also requires state plans to
include measures that provide for the
implementation and enforcement of
such standards. The implementing
regulations further clarify what those
measures may be, such as monitoring,
reporting, and recordkeeping
requirements, but the regulations do not
specify the types of measures that may
satisfy those requirements (e.g., what
type of monitoring is adequate to
measure compliance for a particular
source category). Nor do the
implementing regulations contain an
exhaustive list of implementation and
enforcement measures given that the
nature of a specific state plan, or
individual source subject to a state plan,
may necessitate tailored implementation
285 See
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and enforcement measures that the EPA
has not, or cannot, prescribe.
Establishment of standards of
performance under CAA section 111(d)
state plans also may not be as
straightforward as commenters suggest,
as states have the authority to consider
remaining useful life and other factors
in applying a standard to a designated
facility. While the EPA defines the
degree of emission limitation achievable
through application of the BSER, it is
the state that must evaluate whether
there are source-specific considerations
which necessitate development of a
different standard than the degree of
emission limitation that the EPA
identifies. Commenters do not provide
any information suggesting
development of such standards, or
development of appropriate
implementation and enforcement
measures generally, would take some
shorter period of time to formulate and
adopt for submission of a state plan than
the three years the EPA proposed.
Therefore, for these reasons,
commenters fail to recognize that while
CAA section 111(d) is not the same as
CAA section 110 in the scope of its
requirements, state plans under CAA
section 111(d) have their own
complexities and realities that take time
to address in the development of state
plans.
To the contrary, it has been the EPA’s
experience over decades in the SIP
context that states often do need and
take much, if not all, of the three-year
period under section 110 for the process
of developing and adopting SIPs, even
if a required SIP submission is relatively
narrow in scope and nature. To the
extent the EPA determines a shorter
timeline is appropriate for the
submission of state plans under CAA
section 111(d), for example based on the
nature of the pollution problem
involved, the EPA has authority under
the implementing regulations to impose
a shorter deadline in specific emission
guidelines. Relatedly, the EPA also
proposed that it would be required to
propose a federal plan ‘‘within’’ two
years, and nothing in this provision
precludes the EPA from promulgating a
federal plan at any period within that
span of two years if it deems
appropriate.
For all of these reasons and based on
its experience, the EPA believes it is at
least reasonable to construe Congress’s
direction that it establish a procedure
‘‘similar’’ under that of CAA section 110
to authorize it to provide the same
timing requirements for state and
federal plans under CAA section 111(d)
as Congress provided under CAA
section 110, and indeed that this
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direction may indicate Congress’s
specific intention that the EPA adopt
those same timing requirements. The
EPA is finalizing, as part of new
implementing regulations, a
requirement that states adopt and
submit a state plan to the EPA within
three years after the notice of the
availability of the final emission
guidelines. Because of the amount of
work, effort, and time required for
developing state plans that include unitspecific standards, and implementation
and enforcement measures for such
standards, the EPA believes that
extending the submission date of state
plans from nine months to three years
is appropriate. Because states have
considerable flexibility in implementing
CAA section 111(d), this timing also
allows states to interact and work with
the Agency in the development of their
state plans and to minimize the chances
of unexpected issues arising that could
slow down eventual approval of state
plans. The EPA notes that nothing in
CAA section 111(d) or the implementing
regulations preclude states from
submitting state plans earlier than the
applicable deadline. The EPA also is
finalizing to give itself discretion to
determine, in specific emission
guidelines, that a shorter time period for
the submission of state plans particular
to that emission guidelines is
appropriate. Such authority is
consistent with CAA section 110(a)(1)’s
grant of authority to the Administrator
to determine that a period shorter than
three years is appropriate for the
submission of particular SIPs
implementing the NAAQS.
Following submission of state plans,
the EPA will review plan submittals to
determine whether they are
‘‘satisfactory’’ pursuant to CAA section
111(d)(2)(A). Given the flexibilities CAA
section 111(d) and emission guidelines
generally accord to states, and the EPA’s
prior experience on reviewing and
acting on SIPs under section 110, the
EPA is extending the period for EPA
review and approval or disapproval of
plans from the four-month period
provided in the 1975 implementing
regulations to a twelve-month period
after a determination of completeness
(either affirmatively by the EPA or by
operation of law, see section IV.F. for
the new implementing regulations’
treatment of completeness) as part of the
new implanting regulations. This
timeline will provide adequate time for
the EPA to review plans and follow
notice-and-comment rulemaking
procedures to ensure an opportunity for
public comment on the EPA’s proposed
action on a state plan.
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The EPA additionally is extending the
timing for the EPA to promulgate a
federal plan from six months in the
existing implementing regulations to
two years, as part of the new
implementing regulations. This twoyear timeline is consistent with the FIP
deadline under section 110(c) of the
CAA. The EPA is finalizing provisions
in the new implementing regulations 286
that provide that it has the authority to
promulgate a federal plan within two
years if it:
• Finds that a state failed to submit a
plan required by emission guidelines
and CAA section 111(d);
• Makes a finding that a state plan
submission is incomplete, as described
under the new completeness
requirements and criteria in 40 CFR
60.27a(g); or
• Disapproves a state plan
submission.
E. Compliance Deadlines
The previous implementing
regulations required that any
compliance schedule for state plans
extending more than 12 months from
the date required for submittal of the
plan must include legally enforceable
increments of progress to achieve
compliance for each designated facility
or category of facilities.287 However, as
described in section IV.D, the EPA is
finalizing updates to the timing
requirements for the submission of, and
action on, state plans. Consequently, it
follows that the requirement for
increments of progress also should be
updated in order to align with the new
timelines. Given that the EPA is
finalizing a period of up to 18 months
for its action on state plans (i.e., 12
months from the determination that a
state plan submission is complete,
which could occur up to six months
after receipt of the state plan), the EPA
believes it is appropriate that the
requirement for increments of progress
should attach to plans that contain
compliance periods that are longer than
the period provided for the EPA’s
review of such plans. This way, sources
subject to a plan will have more
certainty that their regulatory
compliance obligations would not
change between the period when a state
plan is due and when the EPA acts on
a plan. Accordingly, the EPA is
requiring that states include provisions
for increments of progress where their
state plans contain compliance
schedules longer than 24 months from
286 40
287 40
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the date when state plans are due for
particular emission guidelines.
F. Completeness Criteria
Similar to requirements regarding
determinations of completeness under
CAA section 110(k)(1), the EPA is
finalizing completeness criteria that
provide the Agency with a means to
determine whether a state plan
submission includes the minimum
elements necessary for the EPA to act on
the submission. The EPA determines
completeness simply by comparing the
state’s submission against these
completeness criteria. In the case of SIPs
under CAA section 110(k)(1), the EPA
promulgated completeness criteria in
1990 at appendix V to 40 CFR part
51.288 The EPA is adopting criteria
similar to the criteria set out at section
2.0 of appendix V for determining the
completeness of submissions under
CAA section 111(d).
The EPA notes that the addition of
completeness criteria in the framework
regulations does not alter any of the
submission requirements states already
have under any applicable emission
guidelines. The completeness criteria in
this action are those that would
generally apply to all plan submissions
under CAA section 111(d), but specific
emission guidelines may supplement
these general criteria with additional
requirements.
The completeness criteria that the
EPA is finalizing in this action can be
grouped into administrative materials
and technical support. For
administrative materials, the
completeness criteria mirror criteria for
SIP submissions because the two
programs have similar administrative
processes. Under these criteria, the
submittal must include the following:
(1) A formal letter of submittal from
the Governor or the Governor’s designee
requesting EPA approval of the plan or
revision thereof;
(2) Evidence that the state has
adopted the plan in the state code or
body of regulations; or issued the
permit, order, or consent agreement
(hereafter ‘‘document’’) in final form.
That evidence must include the date of
adoption or final issuance as well as the
effective date of the plan, if different
from the adoption/issuance date;
(3) Evidence that the state has the
necessary legal authority under state
law to adopt and implement the plan;
(4) A copy of the official state
regulation(s) or document(s) submitted
for approval and incorporated by
reference into the plan, signed, stamped,
and dated by the appropriate state
288 55
FR 5830; February 16, 1990.
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official indicating that they are fully
adopted and enforceable by the state.
The effective date of the regulation or
document must, whenever possible, be
indicated in the document itself. The
state’s electronic copy must be an exact
duplicate of the hard copy. For revisions
to the approved plan, the submission
must indicate the changes made to the
approved plan by redline/strikethrough;
(5) Evidence that the state followed all
applicable procedural requirements of
the state’s regulations, laws, and
constitution in conducting and
completing the adoption/issuance of the
plan;
(6) Evidence that public notice was
given of the plan or plan revisions with
procedures consistent with the
requirements of 40 CFR 60.23, including
the date of publication of such notice;
(7) Certification that public hearing(s)
were held in accordance with the
information provided in the public
notice and the state’s laws and
constitution, if applicable and
consistent with the public hearing
requirements in 40 CFR 60.23.; and
(8) Compilation of public comments
and the state’s response thereto.
In addition, the technical support
required for all plans must include each
of the following:
(1) Description of the plan approach
and geographic scope;
(2) Identification of each designated
facility; identification of emission
standards for each designated facility;
and monitoring, recordkeeping, and
reporting requirements that will
determine compliance by each
designated facility;
(3) Identification of compliance
schedules and/or increments of
progress;
(4) Demonstration that the state plan
submission is projected to achieve
emissions performance under the
applicable emission guidelines;
(5) Documentation of state
recordkeeping and reporting
requirements to determine the
performance of the plan as a whole; and
(6) Demonstration that each emission
standard is quantifiable, permanent,
verifiable, and enforceable.
The EPA intends that these criteria
generally be applicable to all CAA
section 111(d) plans submitted on or
after the date on which final new
implementing regulations are
promulgated, with the proviso that
specific emission guidelines may
provide otherwise.
Consistent with the requirements of
CAA section 110(k)(1)(B) for SIPs, the
EPA is finalizing that the EPA will
determine whether a state plan is
complete (i.e., meets the completeness
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criteria) by no later than 6 months after
the date, if any, by which a state is
required to submit the plan. The EPA
requires that any plan or plan revision
that a state submits to the EPA, and that
has not been determined by the EPA by
the date 6 months after receipt of the
submission to have failed to meet the
minimum completeness criteria, shall
on that date be deemed by operation of
law to be a complete state plan. Then,
as previously discussed, the EPA
relatedly is finalizing that the EPA will
act on a state plan submission through
notice-and-comment rulemaking within
12 months after determining a plan is
complete either through an affirmative
determination or by operation of law.
When plan submissions do not
contain the minimum elements, the EPA
will find that a state has failed to submit
a complete plan through the same
process as finding a state has made no
submission at all. Specifically, the EPA
will notify the state that its submission
is incomplete and that it therefore has
not submitted a required plan, and the
EPA will also publish a finding of
failure to submit in the Federal
Register, which triggers the EPA’s
obligation to promulgate a federal plan
for the state. This determination that a
submission is incomplete and that the
state has failed to submit a plan is
ministerial in nature and requires no
exercise of discretion or judgment on
the Agency’s part, nor does it reflect a
judgment on the eventual approvability
of the submitted portions of the plan.
G. Standard of Performance
As previously described, the
implementing regulations were
promulgated in 1975 and effectuated the
1970 version of the CAA as it existed at
that time. The 1970 version of CAA
section 111(d) required state plans to
include ‘‘emission standards’’ for
existing sources, and consequently the
implementing regulations refer to this
term. However, as part of the 1977
amendments to the CAA, Congress
replaced the term ‘‘emission standard’’
in section 111(d) with ‘‘standard of
performance.’’ The EPA has not since
revised the implementing regulations to
reflect this change in terminology. For
clarity’s sake and to better track with
statutory requirements, the EPA is
determining to include a definition of
‘‘standard of performance’’ as part of the
new implementing regulations, and to
consistently refer to this term as
appropriate within those regulations in
lieu of referring to an ‘‘emission
standard.’’ In any event, the current
definition of ‘‘emission standard’’ in the
implementing regulations is incomplete
and would need to be revised. For
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example, the definition encompasses
equipment standards, which is an
alternative form of standard provided
for in CAA section 111(h) under certain
circumstances. However, CAA section
111(h) provides for other forms of
alternative standards, such as work
practice standards, which are not
covered by the existing regulatory
definition of ‘‘emission standard.’’
Furthermore, the definition of
‘‘emission standard’’ encompasses
allowance systems, a reference that was
added as part of the EPA’s CAMR.289
This rule was vacated by the D.C.
Circuit, and therefore this added
component to the definition of
‘‘emission standard’’ had no legal effect
because of the Court’s vacatur.
Consistent with the Court’s opinion, the
EPA signaled its intent to remove this
reference as part of its MATS rule.290
However, in the final regulatory text of
that rulemaking, the EPA did not take
action removing this reference, and it
remains as a vestigial artifact.
For these reasons, the EPA is
replacing the existing definition of
‘‘emission standard’’ with a definition of
‘‘standard of performance’’ that tracks
with the definition provided for under
CAA section 111(a)(1). This means a
standard of performance for existing
sources would be defined as a standard
for emissions of air pollutants that
reflects the degree of emission
limitation achievable through the
application by the state of the BSER
which (taking into account the cost of
achieving such reduction and any nonair quality health and environmental
impact and energy requirements) the
Administrator determines has been
adequately demonstrated. Several
commenters expressed concern that the
proposed definition of ‘‘standard of
performance’’ in conjunction with the
proposal to strike the reference to
allowance-based systems precluded
states from including mass-based
standards of performance. Commenters
misunderstand the EPA’s proposal,
which did not propose that the new
definition of ‘‘standard of performance’’
itself would specify either rate-based or
mass-based standards. As explained at
proposal, the new definition is intended
to track the definition of the same term
in CAA section 111(a)(1), which does
not specify that standards of
performance must be rate or mass-based.
Rather, the EPA may determine in
particular emission guidelines the
appropriate form of the standard that a
state plan must include, based on
considerations specific to those
289 70
290 77
FR 28605.
FR 9304.
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emission guidelines, such as the BSER
determination, the nature of the
pollutant and affected source-category
being regulated, and other relevant
factors. The EPA believes the term
‘‘standard of performance’’ alone does
not require or preclude that the standard
be in rate or mass-based form, whereas
the prior definition of ‘‘emission
standard’’ was actually more restrictive
in that it specified rate-based standards
and allowance-based systems, but it did
not identify other mass-based standards
(such as limits) as permissible.
Similarly, other commenters stated
that the definition in the implementing
regulations should be clarified to
encompass unambiguously rates of any
kind (e.g., input-based or output-based),
quantities, concentrations, or percentage
reductions, consistent with statutory
language. However, as previously
described, the term ‘‘standard of
performance’’ alone does not specify
which form the standard must take, and
such specification is appropriately made
in a particular emission guideline
depending on considerations such as
the nature of the BSER, source category,
and pollutant for that rule. Therefore,
the EPA is finalizing the definition of
‘‘standard of performance’’ as proposed
and clarifying that the definition alone
does not preclude any form of rate or
mass-based standards, but particular
emission guidelines may specify the
appropriate form of standards that a
state plan under such guidelines can or
cannot include.
The EPA is further finalizing a
definition of standard of performance
that incorporates CAA section 111(h)’s
allowance for design, equipment, work
practice, or operational standards as
alternative standards of performance
under the statutorily prescribed
circumstances. The previous
implementing regulations allowed for
state plans to prescribe equipment
specifications when emission rates are
‘‘clearly impracticable’’ as determined
by the EPA. CAA section 111(h)(1), by
contrast, allows for alternative standards
such as equipment standards to be
promulgated when standards of
performance are ‘‘not feasible to
prescribe or enforce,’’ as those terms are
defined under CAA section 111(h)(2).
Given the potential discrepancy
between the conditions under which
alternative standards may be established
based on the different terminology used
by the statute and existing
implementing regulations, the EPA is
establishing in the new implementing
regulations the ‘‘not feasible to prescribe
or enforce’’ language as the condition
under which alternative standards may
be established.
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H. Remaining Useful Life and Other
Factors Provisions
The EPA believes that the previous
implementing regulations’ distinction
between public health-based and
welfare-based pollutants is not a
distinction unambiguously required
under CAA section 111(d) or any other
applicable provision of the statute. The
EPA does not believe the nature of the
pollutant in terms of its impacts on
health and/or welfare impact the
manner in which it is regulated under
this provision. Particularly, 60.24(c)
requires that for health-based pollutants,
a state’s standards of performance must
be of equivalent stringency to the EPA’s
emission guidelines. However, CAA
section 111(d)(1)(B) states that the EPA’s
regulations ‘‘shall’’ permit states to take
into account, among other factors, a
designated facility’s remaining useful
life when establishing an appropriate
standard of performance. In other
words, Congress explicitly envisioned
under CAA section 111(d)(1)(B) that
states could implement standards of
performance that vary from the EPA’s
emission guidelines under appropriate
circumstances. Notably, the pre-existing
implementing regulations at § 60.24(f)
contain a provision that allows for states
to also apply less stringent standards on
sources under certain circumstances.291
However, this provision attaches to the
distinction between health-based and
welfare-based pollutants and is
available to the states only under the
EPA’s discretion. This provision was
also promulgated prior to Congress’s
addition of the requirement in CAA
section 111(d)(1)(B) that the EPA permit
states to take into account remaining
useful life and other factors, and the
terms of the regulatory provision and
statutory provision do not match one
another, meaning that this provision
may not account for all of the factors
envisioned under CAA section
111(d)(1)(B). Given all of these
considerations, the EPA is finalizing in
the new implanting regulations
provisions that remove the distinction
between health-based and welfare-based
pollutants and associated requirements
contingent upon this distinction. The
EPA is also finalizing a new provision
to permit states to take into account
remaining useful life, among other
291 The EPA is hereafter no longer referring to 40
CFR 60.24(f) or its corollary under the new
implementing regulations as the ‘‘variance
provision.’’ The EPA is instead using the phrase
‘‘remaining useful life and other factors’’ when
referring to this provision, as this phrase is
consistent with the terminology used in CAA
section 111(d)(1) and better reflects the states’ role
and authority in establishing standards of
performance under CAA section 111(d) generally.
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factors, in establishing a standard of
performance for a particular designated
facility, consistent with CAA section
111(d)(1)(B).
Under this new ‘‘remaining useful life
and other factors’’ provision, these
following factors may be considered,
among others:
• Unreasonable cost of control
resulting from plant age, location, or
basic process design;
• Physical impossibility of installing
necessary control equipment; or
• Other factors specific to the facility
(or class of facilities) that make
application of a less stringent standard
or final compliance time significantly
more reasonable.
Given that there are unique attributes
and aspects of each designated facility,
it is not possible for the EPA to define
each and every circumstance that states
may consider when applying a standard
of performance under CAA section
111(d); accordingly, this list is not
intended to be exclusive of other sourcespecific factors that a state may
permissibly take into account in
developing a satisfactory plan
establishing standards of performance
for existing sources within its
jurisdiction. Such ‘‘other factors’’
referred to under the remaining useful
life and other factors provision may be
ones that influence decisions to invest
in technologies to meet a potential
performance standard. Such other
factors may include timing
considerations like payback period for
investments, the timing of regulatory
requirements, and other unit-specific
criteria. A state may account for
remaining useful life and other factors
as it determines appropriate for a
specific source, so long as the state
adopts a reasonable approach and
adequately explains that approach in its
submission to the EPA.
V. Statutory and Executive Order
Reviews
Additional information about these
Statutory and Executive Orders can be
found at https://www.epa.gov/lawsregulations/laws-and-executive-orders.
A. Executive Order 12866: Regulatory
Planning and Review and Executive
Order 13563: Improving Regulation and
Regulatory Review
This final action is an economically
significant action that was submitted to
the OMB for review. Any changes made
in response to OMB recommendations
have been documented in the docket.
The EPA prepared an analysis of the
compliance cost, benefit, and net benefit
impacts associated with this action in
the analytical timeframe of 2023 to
2037. This analysis, which is contained
in the Regulatory Impact Analysis (RIA)
for this final action, is consistent with
Executive Order 12866 and is available
in the docket for this action.
In the RIA for this final action, the
Agency provides a full benefit-cost
analysis of an illustrative policy
scenario representing ACE, which
models HRI at coal-fired EGUs. This
illustrative policy scenario, described in
greater detail in section III.F above,
represents potential outcomes of state
determinations of standards of
performance, and compliance with
those standards by affected coal-fired
EGUs. Throughout the RIA, the
illustrative policy scenario is compared
against a single baseline. As described
in Chapter 2 of the RIA, the EPA
believes that a single baseline without
the CPP represents a reasonable future
against which to assess the potential
impacts of the ACE rule. The EPA also
provides analysis in Chapter 2 of the
RIA that satisfies any need for
regulatory impact analysis that may be
required by statute or executive order
for the repeal of the CPP.
The EPA evaluates the potential
regulatory impacts of the illustrative
policy scenario using the present value
(PV) of costs, benefits, and net benefits,
calculated for the timeframe of 2023–
2037 from the perspective of 2016, using
both a three percent and seven percent
end-of-period discount rate. In addition,
the EPA presents the assessment of
costs, benefits, and net benefits for
specific snapshot years, consistent with
historic practice. These specific
snapshot years are 2025, 2030, and
2035.
The power industry’s ‘‘compliance
costs’’ are represented in this analysis as
the change in electric power generation
costs between the baseline and
illustrative policy scenario, including
the cost of monitoring, reporting, and
recordkeeping. The EPA also reports the
impact on climate benefits from changes
in CO2 and the impact on health
benefits attributable to changes in SO2,
NOX, and PM2.5 emissions. More
detailed descriptions of the cost and
benefit impacts of these rulemakings are
presented in section III.F above.
Table 9 presents the PV and
equivalent annualized value (EAV) of
the estimated costs, domestic climate
benefits, ancillary health co-benefits,
and net benefits of the illustrative policy
scenario for the timeframe of 2023–
2037, relative to the baseline. The EAV
represents an even-flow of figures over
the timeframe of 2023–2037 that would
yield an equivalent present value. The
EAV is identical for each year of the
analysis, in contrast to the year-specific
estimates presented earlier for the
snapshot years of 2025, 2030, and 2035.
Table 10 presents the estimates for the
specific snapshot years of 2025, 2030,
and 2035.
TABLE 9—PRESENT VALUE AND EQUIVALENT ANNUALIZED VALUE OF COMPLIANCE COSTS, DOMESTIC CLIMATE BENEFITS,
ANCILLARY HEALTH CO-BENEFITS, AND NET BENEFITS, ILLUSTRATIVE POLICY SCENARIO, 3 AND 7 PERCENT DISCOUNT RATES, 2023–2037
[Millions of 2016$]
Costs
3%
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Present Value ................................
Equivalent Annualized Value .........
Domestic climate
benefits
7%
1,600
140
970
110
3%
Ancillary health
co-benefits
3%
7%
3%
4,000 to 9,800 ....
330 to 820 ..........
2,000 to 5,000 ....
220 to 550 ..........
3,000 to 8,800 ....
250 to 730 ..........
7%
640
53
62
6.9
Net benefits
7%
1,100 to 4,100.
120 to 450.
Notes: All estimates are rounded to two significant figures, so figures may not sum due to independent rounding. Climate benefits reflect the value of domestic impacts from CO2 emissions changes. The ancillary health co-benefits reflect the sum of the PM2.5 and ozone benefits from changes in electricity sector SO2 and NOX
emissions and reflect the range based on adult mortality functions (e.g., from Krewski et al. (2009) with Smith et al. (2009) 292 to Lepeule et al. (2012) with Jerrett et
al. (2009)).293
292 Smith, R.L., Xu, B., Switzer, P., 2009.
Reassessing the relationship between ozone and
short-term mortality in U.S. urban communities.
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Inhal. Toxicol. 21 Suppl 2, 37–61. https://doi.org/
10.1080/08958370903161612.
293 Jerrett, M., Burnett, R.T., Pope, C.A., Ito, K.,
Thurston, G., Krewski, D., Shi, Y., Calle, E., Thun,
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M., 2009. Long-term ozone exposure and mortality.
N. Engl. J. Med. 360, 1085–95. https://doi.org/
10.1056/NEJMoa0803894.
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TABLE 10—COMPLIANCE COSTS, DOMESTIC CLIMATE BENEFITS, ANCILLARY HEALTH CO-BENEFITS, AND NET BENEFITS IN
2025, 2030, AND 2035, ILLUSTRATIVE POLICY SCENARIO, 3 AND 7 PERCENT DISCOUNT RATES
[Millions of 2016$]
Costs
3%
2025 .............................
2030 .............................
2035 .............................
Domestic climate
benefits
7%
290
280
25
3%
290
280
25
Ancillary health
co-benefits
3%
7%
3%
390 to 970 ......
490 to 1,200 ...
550 to 1,400 ...
360 to 900 ......
460 to 1,100 ...
510 to 1,300 ...
180 to 760 ......
300 to 1,000 ...
600 to 1,400 ...
7%
81
81
72
13
14
13
Net benefits
7%
84 to 630.
200 to 860.
500 to 1,200.
Notes: All estimates are rounded to two significant figures, so figures may not sum due to independent rounding. Climate benefits reflect the
value of domestic impacts from CO2 emissions changes. The ancillary health co-benefits reflect the sum of the PM2.5 and ozone benefits from
changes in electricity sector SO2 and NOX emissions and reflect the range based on adult mortality functions (e.g., from Krewski et al. (2009)
with Smith et al. (2009) to Lepeule et al. (2012) with Jerrett et al. (2009)).
In the decision-making process it is
useful to consider the change in benefits
due to the targeted pollutant relative to
the costs. Therefore, in Chapter 6 of the
RIA for this final action the Agency
presents a comparison of the benefits
from the targeted pollutant—CO2—with
the compliance costs. Excluded from
this comparison are the benefits from
changes in PM2.5 and ozone
concentrations from changes in SO2,
NOX, and PM2.5 emissions that are
projected to accompany changes in CO2
emissions.
Table 11 presents the PV and EAV of
the estimated costs, benefits, and net
benefits associated with the targeted
pollutant, CO2, for the timeframe of
2023–2037, relative to the baseline. In
Table 11 and Table 12, negative net
benefits are indicated with parenthesis.
TABLE 11—PRESENT VALUE AND EQUIVALENT ANNUALIZED VALUE OF COMPLIANCE COSTS, CLIMATE BENEFITS, AND NET
BENEFITS ASSOCIATED WITH TARGETED POLLUTANT (CO2), ILLUSTRATIVE POLICY SCENARIO, 3 AND 7 PERCENT DISCOUNT RATES, 2023–2037
[Millions of 2016$]
Costs
3%
Domestic climate
benefits
7%
3%
Net benefits associated
with the targeted
pollutant
(CO2)
7%
3%
Present Value ..........................................
Equivalent Annualized Value ...................
1,600
140
970
110
640
53
62
6.9
7%
(980)
(82)
(910)
(100)
Notes: Negative net benefits indicate forgone net benefits. All estimates are rounded to two significant figures, so figures may not sum due to
independent rounding. Climate benefits reflect the value of domestic impacts from CO2 emissions changes. This table does not include estimates
of ancillary health co-benefits from changes in electricity sector SO2 and NOX emissions.
Table 12 presents the costs, benefits,
and net benefits associated with the
targeted pollutant for specific years,
rather than as a PV or EAV as found in
Table 11.
TABLE 12—COMPLIANCE COSTS, CLIMATE BENEFITS, AND NET BENEFITS ASSOCIATED WITH TARGETED POLLUTANT
(CO2) IN 2025, 2030, AND 2035, ILLUSTRATIVE POLICY SCENARIO, 3 AND 7 PERCENT DISCOUNT RATES
[Millions of 2016$]
Costs
3%
Domestic climate
benefits
7%
3%
Net benefits associated
with the targeted
pollutant
(CO2)
7%
3%
2025 .........................................................
2030 .........................................................
2035 .........................................................
290
280
25
290
280
25
81
81
72
13
14
13
7%
(210)
(200)
47
(280)
(260)
(11)
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Notes: Negative net benefits indicate forgone net benefits. All estimates are rounded to two significant figures, so figures may not sum due to
independent rounding. Climate benefits reflect the value of domestic impacts from CO2 emissions changes. This table does not include estimates
of ancillary health co-benefits from changes in electricity sector SO2 and NOX emissions.
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Throughout the RIA for this action,
the EPA considers a number of sources
of uncertainty, both quantitatively and
qualitatively. The RIA also summarizes
other potential sources of benefits and
costs that may result from these rules
that have not been quantified or
monetized.
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B. Executive Order 13771: Reducing
Regulation and Controlling Regulatory
Costs
This action is expected to be an
Executive Order 13771 regulatory
action. Details on the estimated costs of
this final rule can be found in the EPA’s
analysis of the potential costs and
benefits associated with this action.
C. Paperwork Reduction Act (PRA)
The information collection activities
in this rule have been submitted for
approval to the Office of Management
and Budget (OMB) under the PRA. The
Information Collection Request (ICR)
document that the EPA prepared has
been assigned the EPA ICR number
2503.04. A copy of the ICR can be found
in the docket for this rule, and it is
briefly summarized here. The
information collection requirements are
not enforceable until OMB approves
them.
The information collection
requirements are based on the
recordkeeping and reporting burden
associated with developing,
implementing, and enforcing a state
plan to limit CO2 emissions from
existing sources in the power sector.
These recordkeeping and reporting
requirements are specifically authorized
by CAA section 114 (42 U.S.C. 7414).
All information submitted to the EPA
pursuant to the recordkeeping and
reporting requirements for which a
claim of confidentiality is made is
safeguarded according to Agency
policies set forth in 40 CFR part 2,
subpart Ba.
Respondents/affected entities: 48—
the 48 contiguous states;
Respondent’s obligation to respond:
The EPA expects state plan submissions
from 43 of the 48 contiguous states and
negative declarations from Vermont,
California, Maine, Idaho, and Rhode
Island.
Frequency of response: Yearly.
Total estimated burden: 192,640
hours (per year). Burden is defined at 5
CFR 1320.3(b).
Total estimated cost: $21,500
annualized capital or operation and
maintenance costs.
An agency may not conduct or
sponsor, and a person is not required to
respond to, a collection of information
unless it displays a currently valid OMB
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control number. The OMB control
numbers for the EPA’s regulations in 40
CFR are listed in 40 CFR part 9. When
OMB approves this ICR, the Agency will
announce the approval in the Federal
Register and publish a technical
amendment to 40 CFR part 9 to display
the OMB control number for the
approved information collection
activities contained in this final rule.
D. Regulatory Flexibility Act (RFA)
After considering the economic
impacts of this rule on small entities, I
certify that this action will not have a
significant economic impact on a
substantial number of small entities.
This final rule will not impose any
requirements on small entities.
Specifically, emission guidelines
established under CAA section 111(d)
do not impose any requirements on
regulated entities and, thus, will not
have a significant economic impact
upon a substantial number of small
entities. After emission guidelines are
promulgated, states develop and submit
to the EPA plans that establish
performance standards for existing
sources within their jurisdiction, and it
is those state requirements that could
potentially impact small entities. Our
analysis in the accompanying RIA is
consistent with the analysis of the
analogous situation arising when the
EPA establishes NAAQS, which do not
impose any requirements on regulated
entities. As with the description in the
RIA, any impact of a NAAQS on small
entities would only arise when states
take subsequent action to maintain and/
or achieve the NAAQS through their
state implementation plans.294
E. Unfunded Mandates Reform Act
(UMRA)
This action does not contain an
unfunded mandate of $100 million or
more as described in UMRA, 2 U.S.C.
1531–1538, and does not significantly or
uniquely affect small governments.
This action does not contain a federal
mandate that may result in expenditures
of $100 million or more for state, local,
and tribal governments, in the aggregate
or the private sector in any one year.
Specifically, the emission guidelines
proposed under CAA section 111(d) do
not impose any direct compliance
requirements on regulated entities, apart
from the requirement for states to
develop state plans. The burden for
states to develop state plans in the
three-year period following
294 See American Trucking Ass’n v. EPA, 175
F.3d 1029, 1043–45 (D.C. Cir. 1999) (NAAQS do not
have significant impacts upon small entities
because NAAQS themselves impose no regulations
upon small entities).
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promulgation of the rule was estimated
and is listed in section IV.A. above, but
this burden is estimated to be below
$100 million in any one year. Thus, this
rule is not subject to the requirements
of section 203 or section 205 of the
Unfunded Mandates Reform Act
(UMRA).
This rule is also not subject to the
requirements of section 203 of UMRA
because, as described in 2 U.S.C. 1531–
38, it contains no regulatory
requirements that might significantly or
uniquely affect small governments. This
action imposes no enforceable duty on
any state, local, or tribal governments or
the private sector.
F. Executive Order 13132: Federalism
The EPA has concluded that this
action may have federalism implications
because it might impose substantial
direct compliance costs on state or local
governments, and the federal
government will not provide the funds
necessary to pay those costs. The
development of state plans will entail
many hours of staff time to develop and
coordinate programs for compliance
with the proposed rule, as well as time
to work with state legislatures as
appropriate, and develop a plan
submittal. The Agency understands the
burden that these actions will have on
states and is committing to providing
aid and guidance to states through the
plan development process. The EPA
will be available at the states initiative
to provide clarity for developing plans,
including standard of performance
setting and compliance initiatives.
G. Executive Order 13175: Consultation
and Coordination With Indian Tribal
Governments
This action does not have tribal
implications as specified in Executive
Order 13175. It would not impose
substantial direct compliance costs on
tribal governments that have designated
facilities located in their area of Indian
country. Tribes are not required to
develop plans to implement the
guidelines under CAA section 111(d) for
designated facilities. The EPA notes that
this final rule does not directly impose
specific requirements on EGU sources,
including those located in Indian
country; before developing any
standards of performance for existing
sources on tribal land, the EPA would
consult with leaders from affected
tribes. This action also will not have
substantial direct costs or impacts on
the relationship between the federal
government and Indian tribes or on the
distribution of power and
responsibilities between the federal
government and Indian tribes, as
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specified in Executive Order 13175.
Thus, Executive Order 13175 does not
apply to the action.
Executive Order 13175 requires the
EPA to develop an accountable process
to ensure ‘‘meaningful and timely input
by tribal officials in the development of
regulatory policies that have tribal
implications.’’ The EPA has concluded
that this action does not have tribal
implications as specified in E.O. 13175.
It would not impose substantial direct
compliance costs on tribal governments
that have designated facilities located in
their area of Indian country. Tribes are
not required to develop plans to
implement the guidelines under CAA
section 111(d) for designated facilities.
This action also will not have
substantial direct cost or impacts on the
relationship between the federal
government and Indian tribes or on the
distribution of power and
responsibilities between the federal
government and Indian tribes, as
specified in Executive Order 13175.
Consistent with EPA Policy on
Consultation and Coordination with
Indian Tribes, the EPA consulted with
tribal officials during the development
of this action to provide an opportunity
to have meaningful and timely input.
On August 24, 2018, consultation letters
were sent to 584 tribal leaders that
provided information and offered
consultation regarding the EPA’s
development of this rule. On August 30,
2018, the EPA provided a presentation
overview on the Proposal: Affordable
Clean Energy (Rule) on the monthly
National Tribal Air Association/EPA Air
Policy call. At the request of the tribes,
two consultation meetings were held:
One with the Navajo Nation on October
11, 2018, and one with the Samish
Indian Nation on October 16, 2018. The
Samish Indian Nation opened their
consultation to other tribes—also
participating in this meeting for
informational purposes only were seven
tribes (Blue Lake Rancheria, Cherokee
Nation Environmental Program, La Jolla
Band of Luisen˜o Indians, Leech Lake
Band of Ojibwe, Muscogee (Creek)
Nation Office of Environmental
Services, Nez Perce Tribe, The Quapaw
Tribe) and the National Tribal Air
Association. In the meetings, the tribes
were presented information from the
proposal. The tribes asked general
clarifying questions and indicated that
they would submit formal comments.
Comments on the proposal were
received from the Navajo Nation, the
Samish Indian Nation, Blue Lake
Rancheria, Leech Lake Band of Ojibwe,
Nez Perce Tribe, and the National Tribal
Air Association, in addition to the
Keweenaw Bay Indian Community, the
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Fond du Lac Band, the 1854 Treaty
Authority, and the Sac and Fox Nation.
Tribal commenters insisted on
meaningful government-to-government
consultation with potentially impacted
tribes, and that the final rule require
states to consult with indigenous and
vulnerable communities as they develop
state plans. More specific comments can
be found in the docket.
H. Executive Order 13045: Protection of
Children From Environmental Health
Risks and Safety Risks
This action is subject to Executive
Order 13045 because it is an
economically significant regulatory
action as defined by Executive Order
12866. The EPA believes that this action
will achieve CO2 emission reductions
resulting from implementation of these
emission guidelines, as well as ozone
and PM2.5 emission reductions as a cobenefit, and will further improve
children’s health.
Moreover, this action does not affect
the level of public health and
environmental protection already being
provided by existing NAAQS, including
ozone and PM2.5, and other mechanisms
in the CAA. This action does not affect
applicable local, state, or federal
permitting or air quality management
programs that will continue to address
areas with degraded air quality and
maintain the air quality in areas meeting
current standards. Areas that need to
reduce criteria air pollution to meet the
NAAQS will still need to rely on control
strategies to reduce emissions.
I. Executive Order 13211: Actions
Concerning Regulations That
Significantly Affect Energy Supply,
Distribution, or Use
This action, which is a significant
regulatory energy action under
Executive Order 12866, is likely to have
a significant effect on the supply,
distribution, or use of energy.
Specifically, the EPA estimated in the
RIA that the rule could result in more
than a one percent decrease in coal
production in 2025 (or a reduction of
more than a 5 million tons per year) and
less than a one percent reduction in
natural gas use in the power sector (or
more than a 25 million MCF reduction
in production on an annual basis). The
energy impacts the EPA estimates from
these rules may be under- or overestimates of the true energy impacts
associated with this action. For more
information on the estimated energy
effects, please refer to the RIA for these
rulemakings, which is in the public
docket.
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J. National Technology Transfer and
Advancement Act (NTTAA)
This rulemaking does not involve
technical standards.
K. Executive Order 12898: Federal
Actions To Address Environmental
Justice in Minority Populations and
Low-Income Populations
The EPA believes that this action is
unlikely to have disproportionately high
and adverse human health or
environmental effects on minority
populations, low-income populations
and/or indigenous peoples as specified
in Executive Order 12898 (59 FR 7629,
February 16, 1994). The EPA believes
that this action will achieve CO2
emission reductions resulting from
implementation of these final
guidelines, as well as ozone and PM2.5
emission reductions as a co-benefit, and
will further improve environmental
justice communities’ health as
discussed in the RIA.
With regards to the repeal, Chapter 2
of the RIA explains why the EPA
believes that the power sector is already
on path to achieve the CO2 reductions
required by the CPP, therefore the EPA
does not believe it would have any
significant impact on EJ effected
communities.
With regards to ACE, as described in
Chapter 4 of the RIA, the EPA finds that
most of the eastern U.S. will experience
PM and ozone-related benefits as a
result of this action. While the EPA
expects areas in the southeastern U.S. to
experience a modest increase in fine
particle levels, areas including the
Midwest will experience reduced levels
of PM, yielding significant benefits in
the form of fewer premature deaths and
illnesses. On balance, the positive
benefits of this action significantly
outweigh the estimated disbenefits.
Moreover, this action does not affect
the level of public health and
environmental protection already being
provided by existing NAAQS, including
ozone and PM2.5, and other mechanisms
in the CAA.
L. Congressional Review Act (CRA)
This action is subject to the CRA, and
the EPA will submit a rule report to
each House of the Congress and to the
Comptroller General of the United
States. This action is a ‘‘major rule’’ as
defined by 5 U.S.C. 804(2).
VI. Statutory Authority
The statutory authority for this action
is provided by sections 111, 301, and
307(d)(1)(V) of the CAA, as amended (42
U.S.C. 7411, 7601, 7607(d)(1)(V)). This
action is also subject to section 307(d)
of the CAA (42 U.S.C. 7607(d)).
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List of Subjects in 40 CFR Part 60
Environmental protection,
Administrative practice and procedure,
Air pollution control, Intergovernmental
relations, Reporting and recordkeeping
requirements.
Dated: June 19, 2019.
Andrew R. Wheeler,
Administrator.
§ 60.21a
Therefore, 40 CFR chapter I is
amended as follows:
PART 60—STANDARDS OF
PERFORMANCE FOR NEW
STATIONARY SOURCES
1. The authority citation for part 60
continues to read as follows:
■
Authority: 42 U.S.C. 7401 et seq.
■
2. Add subpart Ba to read as follows:
Subpart Ba—Adoption and Submittal
of State Plans for Designated Facilities
Sec.
60.20a Applicability.
60.21a Definitions.
60.22a Publication of emission guidelines.
60.23a Adoption and submittal of State
plans; public hearings.
60.24a Standards of performance and
compliance schedules.
60.25a Emission inventories, source
surveillance, reports,
60.26a Legal authority.
60.27a Actions by the Administrator.
60.28a Plan revisions by the State.
60.29a Plan revisions by the Administrator.
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§ 60.20a
Applicability.
(a) The provisions of this subpart
apply upon publication of a final
emission guideline under § 60.22a(a) if
implementation of such final guideline
is ongoing as of July 8, 2019 or if the
final guideline is published after July 8,
2019.
(1) Each emission guideline
promulgated under this part is subject to
the requirements of this subpart, except
that each emission guideline may
include specific provisions in addition
to or that supersede requirements of this
subpart. Each emission guideline must
identify explicitly any provision of this
subpart that is superseded.
(2) Terms used throughout this part
are defined in § 60.21a or in the Clean
Air Act (Act) as amended in 1990,
except that emission guidelines
promulgated as individual subparts of
this part may include specific
definitions in addition to or that
supersede definitions in § 60.21a.
(b) No standard of performance or
other requirement established under
this part shall be interpreted, construed,
or applied to diminish or replace the
requirements of a more stringent
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emission limitation or other applicable
requirement established by the
Administrator pursuant to other
authority of the Act (section 112, Part C
or D, or any other authority of this Act),
or a standard issued under State
authority.
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Definitions.
Terms used but not defined in this
subpart shall have the meaning given
them in the Act and in subpart A of this
part:
(a) Designated pollutant means any
air pollutant, the emissions of which are
subject to a standard of performance for
new stationary sources, but for which
air quality criteria have not been issued
and that is not included on a list
published under section 108(a) or
section 112(b)(1)(A) of the Act.
(b) Designated facility means any
existing facility (see § 60.2) which emits
a designated pollutant and which would
be subject to a standard of performance
for that pollutant if the existing facility
were an affected facility (see § 60.2).
(c) Plan means a plan under section
111(d) of the Act which establishes
standards of performance for designated
pollutants from designated facilities and
provides for the implementation and
enforcement of such standards of
performance.
(d) Applicable plan means the plan,
or most recent revision thereof, which
has been approved under § 60.27a(b) or
promulgated under § 60.27a(d).
(e) Emission guideline means a
guideline set forth in subpart C of this
part, or in a final guideline document
published under § 60.22a(a), which
reflects the degree of emission
limitation achievable through the
application of the best system of
emission reduction which (taking into
account the cost of such reduction and
any non-air quality health and
environmental impact and energy
requirements) the Administrator has
determined has been adequately
demonstrated for designated facilities.
(f) Standard of performance means a
standard for emissions of air pollutants
which reflects the degree of emission
limitation achievable through the
application of the best system of
emission reduction which (taking into
account the cost of achieving such
reduction and any nonair quality health
and environmental impact and energy
requirements) the Administrator
determines has been adequately
demonstrated, including, but not
limited to a legally enforceable
regulation setting forth an allowable rate
or limit of emissions into the
atmosphere, or prescribing a design,
equipment, work practice, or
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operational standard, or combination
thereof.
(g) Compliance schedule means a
legally enforceable schedule specifying
a date or dates by which a source or
category of sources must comply with
specific standards of performance
contained in a plan or with any
increments of progress to achieve such
compliance.
(h) Increments of progress means
steps to achieve compliance which must
be taken by an owner or operator of a
designated facility, including:
(1) Submittal of a final control plan
for the designated facility to the
appropriate air pollution control agency;
(2) Awarding of contracts for emission
control systems or for process
modifications, or issuance of orders for
the purchase of component parts to
accomplish emission control or process
modification;
(3) Initiation of on-site construction or
installation of emission control
equipment or process change;
(4) Completion of on-site construction
or installation of emission control
equipment or process change; and
(5) Final compliance.
(i) Region means an air quality control
region designated under section 107 of
the Act and described in part 81 of this
chapter.
(j) Local agency means any local
governmental agency.
§ 60.22a Publication of emission
guidelines.
(a) Concurrently upon or after
proposal of standards of performance for
the control of a designated pollutant
from affected facilities, the
Administrator will publish a draft
emission guideline containing
information pertinent to control of the
designated pollutant from designated
facilities. Notice of the availability of
the draft emission guideline will be
published in the Federal Register and
public comments on its contents will be
invited. After consideration of public
comments and upon or after
promulgation of standards of
performance for control of a designated
pollutant from affected facilities, a final
emission guideline will be published
and notice of its availability will be
published in the Federal Register.
(b) Emission guidelines published
under this section will provide
information for the development of
State plans, such as:
(1) Information concerning known or
suspected endangerment of public
health or welfare caused, or contributed
to, by the designated pollutant.
(2) A description of systems of
emission reduction which, in the
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judgment of the Administrator, have
been adequately demonstrated.
(3) Information on the degree of
emission limitation which is achievable
with each system, together with
information on the costs, nonair quality
health environmental effects, and
energy requirements of applying each
system to designated facilities.
(4) Incremental periods of time
normally expected to be necessary for
the design, installation, and startup of
identified control systems.
(5) The degree of emission limitation
achievable through the application of
the best system of emission reduction
(considering the cost of such achieving
reduction and any nonair quality health
and environmental impact and energy
requirements) that has been adequately
demonstrated for designated facilities,
and the time within which compliance
with standards of performance can be
achieved. The Administrator may
specify different degrees of emission
limitation or compliance times or both
for different sizes, types, and classes of
designated facilities when costs of
control, physical limitations,
geographical location, or similar factors
make subcategorization appropriate.
(6) Such other available information
as the Administrator determines may
contribute to the formulation of State
plans.
(c) The emission guidelines and
compliance times referred to in
paragraph (b)(5) of this section will be
proposed for comment upon publication
of the draft guideline document, and
after consideration of comments will be
promulgated in subpart C of this part
with such modifications as may be
appropriate.
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§ 60.23a Adoption and submittal of State
plans; public hearings.
(a)(1) Unless otherwise specified in
the applicable subpart, within three
years after notice of the availability of a
final emission guideline is published
under § 60.22a(a), each State shall adopt
and submit to the Administrator, in
accordance with § 60.4, a plan for the
control of the designated pollutant to
which the emission guideline applies.
(2) At any time, each State may adopt
and submit to the Administrator any
plan revision necessary to meet the
requirements of this subpart or an
applicable subpart of this part.
(b) If no designated facility is located
within a State, the State shall submit a
letter of certification to that effect to the
Administrator within the time specified
in paragraph (a) of this section. Such
certification shall exempt the State from
the requirements of this subpart for that
designated pollutant.
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(c) The State shall, prior to the
adoption of any plan or revision thereof,
conduct one or more public hearings
within the State on such plan or plan
revision in accordance with the
provisions under this section.
(d) Any hearing required by paragraph
(c) of this section shall be held only
after reasonable notice. Notice shall be
given at least 30 days prior to the date
of such hearing and shall include:
(1) Notification to the public by
prominently advertising the date, time,
and place of such hearing in each region
affected. This requirement may be
satisfied by advertisement on the
internet;
(2) Availability, at the time of public
announcement, of each proposed plan
or revision thereof for public inspection
in at least one location in each region to
which it will apply. This requirement
may be satisfied by posting each
proposed plan or revision on the
internet;
(3) Notification to the Administrator;
(4) Notification to each local air
pollution control agency in each region
to which the plan or revision will apply;
and
(5) In the case of an interstate region,
notification to any other State included
in the region.
(e) The State may cancel the public
hearing through a method it identifies if
no request for a public hearing is
received during the 30 day notification
period under paragraph (d) of this
section and the original notice
announcing the 30 day notification
period states that if no request for a
public hearing is received the hearing
will be cancelled; identifies the method
and time for announcing that the
hearing has been cancelled; and
provides a contact phone number for the
public to call to find out if the hearing
has been cancelled.
(f) The State shall prepare and retain,
for a minimum of 2 years, a record of
each hearing for inspection by any
interested party. The record shall
contain, as a minimum, a list of
witnesses together with the text of each
presentation.
(g) The State shall submit with the
plan or revision:
(1) Certification that each hearing
required by paragraph (c) of this section
was held in accordance with the notice
required by paragraph (d) of this
section; and
(2) A list of witnesses and their
organizational affiliations, if any,
appearing at the hearing and a brief
written summary of each presentation or
written submission.
(h) Upon written application by a
State agency (through the appropriate
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Regional Office), the Administrator may
approve State procedures designed to
insure public participation in the
matters for which hearings are required
and public notification of the
opportunity to participate if, in the
judgment of the Administrator, the
procedures, although different from the
requirements of this subpart, in fact
provide for adequate notice to and
participation of the public. The
Administrator may impose such
conditions on his approval as he deems
necessary. Procedures approved under
this section shall be deemed to satisfy
the requirements of this subpart
regarding procedures for public
hearings.
§ 60.24a Standards of performance and
compliance schedules.
(a) Each plan shall include standards
of performance and compliance
schedules.
(b) Standards of performance shall
either be based on allowable rate or
limit of emissions, except when it is not
feasible to prescribe or enforce a
standard of performance. The EPA shall
identify such cases in the emission
guidelines issued under § 60.22a. Where
standards of performance prescribing
design, equipment, work practice, or
operational standard, or combination
thereof are established, the plan shall, to
the degree possible, set forth the
emission reductions achievable by
implementation of such standards, and
may permit compliance by the use of
equipment determined by the State to be
equivalent to that prescribed.
(1) Test methods and procedures for
determining compliance with the
standards of performance shall be
specified in the plan. Methods other
than those specified in appendix A to
this part or an applicable subpart of this
part may be specified in the plan if
shown to be equivalent or alternative
methods as defined in § 60.2.
(2) Standards of performance shall
apply to all designated facilities within
the State. A plan may contain standards
of performance adopted by local
jurisdictions provided that the
standards are enforceable by the State.
(c) Except as provided in paragraph
(e) of this section, standards of
performance shall be no less stringent
than the corresponding emission
guideline(s) specified in subpart C of
this part, and final compliance shall be
required as expeditiously as practicable,
but no later than the compliance times
specified in an applicable subpart of
this part.
(d) Any compliance schedule
extending more than 24 months from
the date required for submittal of the
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plan must include legally enforceable
increments of progress to achieve
compliance for each designated facility
or category of facilities. Unless
otherwise specified in the applicable
subpart, increments of progress must
include, where practicable, each
increment of progress specified in
§ 60.21a(h) and must include such
additional increments of progress as
may be necessary to permit close and
effective supervision of progress toward
final compliance.
(e) In applying a standard of
performance to a particular source, the
State may take into consideration
factors, such as the remaining useful life
of such source, provided that the State
demonstrates with respect to each such
facility (or class of such facilities):
(1) Unreasonable cost of control
resulting from plant age, location, or
basic process design;
(2) Physical impossibility of installing
necessary control equipment; or
(3) Other factors specific to the facility
(or class of facilities) that make
application of a less stringent standard
or final compliance time significantly
more reasonable.
(f) Nothing in this subpart shall be
construed to preclude any State or
political subdivision thereof from
adopting or enforcing:
(1) Standards of performance more
stringent than emission guidelines
specified in subpart C of this part or in
applicable emission guidelines; or
(2) Compliance schedules requiring
final compliance at earlier times than
those specified in subpart C of this part
or in applicable emission guidelines.
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§ 60.25a Emission inventories, source
surveillance, reports.
(a) Each plan shall include an
inventory of all designated facilities,
including emission data for the
designated pollutants and information
related to emissions as specified in
appendix D to this part. Such data shall
be summarized in the plan, and
emission rates of designated pollutants
from designated facilities shall be
correlated with applicable standards of
performance. As used in this subpart,
‘‘correlated’’ means presented in such a
manner as to show the relationship
between measured or estimated
amounts of emissions and the amounts
of such emissions allowable under
applicable standards of performance.
(b) Each plan shall provide for
monitoring the status of compliance
with applicable standards of
performance. Each plan shall, as a
minimum, provide for:
(1) Legally enforceable procedures for
requiring owners or operators of
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designated facilities to maintain records
and periodically report to the State
information on the nature and amount
of emissions from such facilities, and/or
such other information as may be
necessary to enable the State to
determine whether such facilities are in
compliance with applicable portions of
the plan. Submission of electronic
documents shall comply with the
requirements of 40 CFR part 3
(Electronic reporting).
(2) Periodic inspection and, when
applicable, testing of designated
facilities.
(c) Each plan shall provide that
information obtained by the State under
paragraph (b) of this section shall be
correlated with applicable standards of
performance (see § 60.25a(a)) and made
available to the general public.
(d) The provisions referred to in
paragraphs (b) and (c) of this section
shall be specifically identified. Copies
of such provisions shall be submitted
with the plan unless:
(1) They have been approved as
portions of a preceding plan submitted
under this subpart or as portions of an
implementation plan submitted under
section 110 of the Act; and
(2) The State demonstrates:
(i) That the provisions are applicable
to the designated pollutant(s) for which
the plan is submitted, and
(ii) That the requirements of § 60.26a
are met.
(e) The State shall submit reports on
progress in plan enforcement to the
Administrator on an annual (calendar
year) basis, commencing with the first
full report period after approval of a
plan or after promulgation of a plan by
the Administrator. Information required
under this paragraph must be included
in the annual report required by
§ 51.321 of this chapter.
(f) Each progress report shall include:
(1) Enforcement actions initiated
against designated facilities during the
reporting period, under any standard of
performance or compliance schedule of
the plan.
(2) Identification of the achievement
of any increment of progress required by
the applicable plan during the reporting
period.
(3) Identification of designated
facilities that have ceased operation
during the reporting period.
(4) Submission of emission inventory
data as described in paragraph (a) of this
section for designated facilities that
were not in operation at the time of plan
development but began operation
during the reporting period.
(5) Submission of additional data as
necessary to update the information
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submitted under paragraph (a) of this
section or in previous progress reports.
(6) Submission of copies of technical
reports on all performance testing on
designated facilities conducted under
paragraph (b)(2) of this section,
complete with concurrently recorded
process data.
§ 60.26a
Legal authority.
(a) Each plan or plan revision shall
show that the State has legal authority
to carry out the plan or plan revision,
including authority to:
(1) Adopt standards of performance
and compliance schedules applicable to
designated facilities.
(2) Enforce applicable laws,
regulations, standards, and compliance
schedules, and seek injunctive relief.
(3) Obtain information necessary to
determine whether designated facilities
are in compliance with applicable laws,
regulations, standards, and compliance
schedules, including authority to
require recordkeeping and to make
inspections and conduct tests of
designated facilities.
(4) Require owners or operators of
designated facilities to install, maintain,
and use emission monitoring devices
and to make periodic reports to the State
on the nature and amounts of emissions
from such facilities; also authority for
the State to make such data available to
the public as reported and as correlated
with applicable standards of
performance.
(b) The provisions of law or
regulations which the State determines
provide the authorities required by this
section shall be specifically identified.
Copies of such laws or regulations shall
be submitted with the plan unless:
(1) They have been approved as
portions of a preceding plan submitted
under this subpart or as portions of an
implementation plan submitted under
section 110 of the Act; and
(2) The State demonstrates that the
laws or regulations are applicable to the
designated pollutant(s) for which the
plan is submitted.
(c) The plan shall show that the legal
authorities specified in this section are
available to the State at the time of
submission of the plan. Legal authority
adequate to meet the requirements of
paragraphs (a)(3) and (4) of this section
may be delegated to the State under
section 114 of the Act.
(d) A State governmental agency other
than the State air pollution control
agency may be assigned responsibility
for carrying out a portion of a plan if the
plan demonstrates to the
Administrator’s satisfaction that the
State governmental agency has the legal
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authority necessary to carry out that
portion of the plan.
(e) The State may authorize a local
agency to carry out a plan, or portion
thereof, within the local agency’s
jurisdiction if the plan demonstrates to
the Administrator’s satisfaction that the
local agency has the legal authority
necessary to implement the plan or
portion thereof, and that the
authorization does not relieve the State
of responsibility under the Act for
carrying out the plan or portion thereof.
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§ 60.27a
Actions by the Administrator.
(a) The Administrator may, whenever
he determines necessary, shorten the
period for submission of any plan or
plan revision or portion thereof.
(b) After determination that a plan or
plan revision is complete per the
requirements of § 60.27a(g), the
Administrator will take action on the
plan or revision. The Administrator
will, within twelve months of finding
that a plan or plan revision is complete,
approve or disapprove such plan or
revision or each portion thereof.
(c) The Administrator will
promulgate, through notice-andcomment rulemaking, a federal plan, or
portion thereof, at any time within two
years after the Administrator:
(1) Finds that a State fails to submit
a required plan or plan revision or finds
that the plan or plan revision does not
satisfy the minimum criteria under
paragraph (g) of this section; or
(2) Disapproves the required State
plan or plan revision or any portion
thereof, as unsatisfactory because the
applicable requirements of this subpart
or an applicable subpart under this part
have not been met.
(d) The Administrator will
promulgate a final federal plan as
described in paragraph (c) of this
section unless the State corrects the
deficiency, and the Administrator
approves the plan or plan revision,
before the Administrator promulgates
such federal plan.
(e)(1) Except as provided in paragraph
(e)(2) of this section, a federal plan
promulgated by the Administrator
under this section will prescribe
standards of performance of the same
stringency as the corresponding
emission guideline(s) specified in the
final emission guideline published
under § 60.22a(a) and will require
compliance with such standards as
expeditiously as practicable but no later
than the times specified in the emission
guideline.
(2) Upon application by the owner or
operator of a designated facility to
which regulations proposed and
promulgated under this section will
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apply, the Administrator may provide
for the application of less stringent
standards of performance or longer
compliance schedules than those
otherwise required by this section in
accordance with the criteria specified in
§ 60.24a(e).
(f) Prior to promulgation of a federal
plan under paragraph (d) of this section,
the Administrator will provide the
opportunity for at least one public
hearing in either:
(1) Each State that failed to submit a
required complete plan or plan revision,
or whose required plan or plan revision
is disapproved by the Administrator; or
(2) Washington, DC or an alternate
location specified in the Federal
Register.
(g) Each plan or plan revision that is
submitted to the Administrator shall be
reviewed for completeness as described
in paragraphs (g)(1) through (3) of this
section.
(1) General. Within 60 days of the
Administrator’s receipt of a state
submission, but no later than 6 months
after the date, if any, by which a State
is required to submit the plan or
revision, the Administrator shall
determine whether the minimum
criteria for completeness have been met.
Any plan or plan revision that a State
submits to the EPA, and that has not
been determined by the EPA by the date
6 months after receipt of the submission
to have failed to meet the minimum
criteria, shall on that date be deemed by
operation of law to meet such minimum
criteria. Where the Administrator
determines that a plan submission does
not meet the minimum criteria of this
paragraph, the State will be treated as
not having made the submission and the
requirements of § 60.27a regarding
promulgation of a federal plan shall
apply.
(2) Administrative criteria. In order to
be deemed complete, a State plan must
contain each of the following
administrative criteria:
(i) A formal letter of submittal from
the Governor or her designee requesting
EPA approval of the plan or revision
thereof;
(ii) Evidence that the State has
adopted the plan in the state code or
body of regulations; or issued the
permit, order, consent agreement
(hereafter ‘‘document’’) in final form.
That evidence must include the date of
adoption or final issuance as well as the
effective date of the plan, if different
from the adoption/issuance date;
(iii) Evidence that the State has the
necessary legal authority under state
law to adopt and implement the plan;
(iv) A copy of the actual regulation, or
document submitted for approval and
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incorporation by reference into the plan,
including indication of the changes
made (such as redline/strikethrough) to
the existing approved plan, where
applicable. The submittal must be a
copy of the official state regulation or
document signed, stamped and dated by
the appropriate state official indicating
that it is fully enforceable by the State.
The effective date of the regulation or
document must, whenever possible, be
indicated in the document itself. The
State’s electronic copy must be an exact
duplicate of the hard copy. If the
regulation/document provided by the
State for approval and incorporation by
reference into the plan is a copy of an
existing publication, the State
submission should, whenever possible,
include a copy of the publication cover
page and table of contents;
(v) Evidence that the State followed
all of the procedural requirements of the
state’s laws and constitution in
conducting and completing the
adoption and issuance of the plan;
(vi) Evidence that public notice was
given of the proposed change with
procedures consistent with the
requirements of § 60.23a, including the
date of publication of such notice;
(vii) Certification that public
hearing(s) were held in accordance with
the information provided in the public
notice and the State’s laws and
constitution, if applicable and
consistent with the public hearing
requirements in § 60.23a;
(viii) Compilation of public comments
and the State’s response thereto; and
(ix) Such other criteria for
completeness as may be specified by the
Administrator under the applicable
emission guidelines.
(3) Technical criteria. In order to be
deemed complete, a State plan must
contain each of the following technical
criteria:
(i) Description of the plan approach
and geographic scope;
(ii) Identification of each designated
facility, identification of standards of
performance for the designated
facilities, and monitoring,
recordkeeping and reporting
requirements that will determine
compliance by each designated facility;
(iii) Identification of compliance
schedules and/or increments of
progress;
(iv) Demonstration that the State plan
submittal is projected to achieve
emissions performance under the
applicable emission guidelines;
(v) Documentation of state
recordkeeping and reporting
requirements to determine the
performance of the plan as a whole; and
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(vi) Demonstration that each emission
standard is quantifiable, nonduplicative, permanent, verifiable, and
enforceable.
§ 60.28a
Plan revisions by the State.
(a) Any revision to a state plan shall
be adopted by such State after
reasonable notice and public hearing.
For plan revisions required in response
to a revised emission guideline, such
plan revisions shall be submitted to the
Administrator within three years, or
shorter if required by the Administrator,
after notice of the availability of a final
revised emission guideline is published
under § 60.22a. All plan revisions must
be submitted in accordance with the
procedures and requirements applicable
to development and submission of the
original plan.
(b) A revision of a plan, or any portion
thereof, shall not be considered part of
an applicable plan until approved by
the Administrator in accordance with
this subpart.
§ 60.29a Plan revisions by the
Administrator.
After notice and opportunity for
public hearing in each affected State,
the Administrator may revise any
provision of an applicable federal plan
if:
(a) The provision was promulgated by
the Administrator; and
(b) The plan, as revised, will be
consistent with the Act and with the
requirements of this subpart.
Subpart UUUU
[Removed]
3. Remove subpart UUUU.
4. Add subpart UUUUa to read as
follows:
■
■
Subpart UUUUa—Emission Guidelines
for Greenhouse Gas Emissions From
Existing Electric Utility Generating
Units
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Introduction
Sec.
60.5700a What is the purpose of this
subpart?
60.5705a Which pollutants are regulated by
this subpart?
60.5710a Am I affected by this subpart?
60.5715a What is the review and approval
process for my plan?
60.5720a What if I do not submit a plan or
my plan is not approvable?
60.5725a In lieu of a State plan submittal,
are there other acceptable option(s) for a
State to meet its CAA section 111(d)
obligations?
60.5730a Is there an approval process for a
negative declaration letter?
State Plan Requirements
60.5735a What must I include in my
federally enforceable State plan?
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60.5740a What must I include in my plan
submittal?
60.5745a What are the timing requirements
for submitting my plan?
60.5750a What schedules, performance
periods, and compliance periods must I
include in my plan?
60.5755a What standards of performance
must I include in my plan?
60.5760a What is the procedure for revising
my plan?
60.5765a What must I do to meet my plan
obligations?
Applicablity of Plans to Designated Facilities
60.5770a Does this subpart directly affect
EGU owners or operators in my State?
60.5775a What designated facilities must I
address in my State plan?
60.5780a What EGUs are excluded from
being designated facilities?
60.5785a What applicable monitoring,
recordkeeping, and reporting
requirements do I need to include in my
plan for designated facilities?
Recordkeeping and Reporting Requirements
60.5790a What are my recordkeeping
requirements?
60.5795a What are my reporting and
notification requirements?
60.5800a How do I submit information
required by these Emission Guidelines to
the EPA?
Definitions
60.5805a What definitions apply to this
subpart?
Introduction
§ 60.5700a
subpart?
What is the purpose of this
This subpart establishes emission
guidelines and approval criteria for
State plans that establish standards of
performance limiting greenhouse gas
(GHG) emissions from an affected steam
generating unit. An affected steam
generating unit for the purposes of this
subpart, is referred to as a designated
facility. These emission guidelines are
developed in accordance with section
111(d) of the Clean Air Act and subpart
Ba of this part. To the extent any
requirement of this subpart is
inconsistent with the requirements of
subpart A or Ba of this part, the
requirements of this subpart will apply.
§ 60.5705a Which pollutants are regulated
by this subpart?
(a) The pollutants regulated by this
subpart are greenhouse gases. The
emission guidelines for greenhouse
gases established in this subpart are heat
rate improvements which target
achieving lower carbon dioxide (CO2)
emission rates at designated facilities.
(b) PSD and Title V Thresholds for
Greenhouse Gases.
(1) For the purposes of
§ 51.166(b)(49)(ii) of this chapter, with
respect to GHG emissions from
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facilities, the ‘‘pollutant that is subject
to the standard promulgated under
section 111 of the Act’’ shall be
considered to be the pollutant that
otherwise is subject to regulation under
the Act as defined in § 51.166(b)(48) of
this chapter and in any State
Implementation Plan (SIP) approved by
the EPA that is interpreted to
incorporate, or specifically incorporates,
§ 51.166(b)(48) of this chapter.
(2) For the purposes of
§ 52.21(b)(50)(ii) of this chapter, with
respect to GHG emissions from facilities
regulated in the plan, the ‘‘pollutant that
is subject to the standard promulgated
under section 111 of the Act’’ shall be
considered to be the pollutant that
otherwise is subject to regulation under
the Act as defined in § 52.21(b)(49) of
this chapter.
(3) For the purposes of § 70.2 of this
chapter, with respect to greenhouse gas
emissions from facilities regulated in
the plan, the ‘‘pollutant that is subject
to any standard promulgated under
section 111 of the Act’’ shall be
considered to be the pollutant that
otherwise is ‘‘subject to regulation’’ as
defined in § 70.2 of this chapter.
(4) For the purposes of § 71.2 of this
chapter, with respect to greenhouse gas
emissions from facilities regulated in
the plan, the ‘‘pollutant that is subject
to any standard promulgated under
section 111 of the Act’’ shall be
considered to be the pollutant that
otherwise is ‘‘subject to regulation’’ as
defined in § 71.2 of this chapter.
§ 60.5710a
Am I affected by this subpart?
If you are the Governor of a State in
the contiguous United States with one
or more designated facilities that
commenced construction on or before
January 8, 2014, you are subject to this
action and you must submit a State plan
to the U.S. Environmental Protection
Agency (EPA) that implements the
emission guidelines contained in this
subpart. If you are the Governor of a
State in the contiguous United States
with no designated facilities for which
construction commenced on or before
January 8, 2014, in your State, you must
submit a negative declaration letter in
place of the State plan.
§ 60.5715a What is the review and
approval process for my plan?
The EPA will review your plan
according to § 60.27a to approve or
disapprove such plan or revision or
each portion thereof.
§ 60.5720a What if I do not submit a plan,
my plan is incomplete, or my plan is not
approvable?
(a) If you do not submit a complete or
an approvable plan the EPA will
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develop a Federal plan for your State
according to § 60.27a. The Federal plan
will implement the emission guidelines
contained in this subpart. Owners and
operators of designated facilities not
covered by an approved plan must
comply with a Federal plan
implemented by the EPA for the State.
(b) After a Federal plan has been
implemented in your State, it will be
withdrawn when your State submits,
and the EPA approves, a plan.
§ 60.5725a In lieu of a State plan submittal,
are there other acceptable option(s) for a
State to meet its CAA section 111(d)
obligations?
A State may meet its CAA section
111(d) obligations only by submitting a
State plan submittal or a negative
declaration letter (if applicable).
§ 60.5730a Is there an approval process
for a negative declaration letter?
The EPA has no formal review
process for negative declaration letters.
Once your negative declaration letter
has been received, the EPA will place a
copy in the public docket and publish
a notice in the Federal Register. If, at a
later date, a designated facility for
which construction commenced on or
before January 8, 2014 is found in your
State, you will be found to have failed
to submit a plan as required, and a
Federal plan implementing the emission
guidelines contained in this subpart,
when promulgated by the EPA, will
apply to that designated facility until
you submit, and the EPA approves, a
State plan.
State Plan Requirements
§ 60.5735a What must I include in my
federally enforceable State plan?
(a) You must include the components
described in paragraphs (a)(1) through
(4) of this section in your plan
submittal. The final plan must meet the
requirements of, and include the
information required under, § 60.5740a.
(1) Identification of designated
facilities. Consistent with § 60.25a(a),
you must identify the designated
facilities covered by your plan and all
designated facilities in your State that
meet the applicability criteria in
§ 60.5775a. In addition, you must
include an inventory of CO2 emissions
from the designated facilities during the
most recent calendar year for which
data is available prior to the submission
of the plan.
(2) Standards of performance. You
must provide a standard of performance
for each designated facility according to
§ 60.5755a and compliance periods for
each standard of performance according
to § 60.5750a. Each standard of
performance must reflect the degree of
emission limitation achievable through
application of the heat rate
improvements described in § 60.5740a.
In applying the heat rate improvements
described in § 60.5740a, a state may
consider remaining useful life and other
factors, as provided for in § 60.24a(e).
(3) Identification of applicable
monitoring, reporting, and
recordkeeping requirements for each
designated facility. You must include in
your plan all applicable monitoring,
reporting and recordkeeping
requirements for each designated
facility and the requirements must be
consistent with or no less stringent than
the requirements specified in
§ 60.5785a.
(4) State reporting. Your plan must
include a description of the process,
contents, and schedule for State
reporting to the EPA about plan
implementation and progress, including
information required under § 60.5795a.
(b) You must follow the requirements
of subpart Ba of this part and
demonstrate that they were met in your
State plan.
§ 60.5740a What must I include in my plan
submittal?
(a) In addition to the components of
the plan listed in § 60.5735a, a state
plan submittal to the EPA must include
the information in paragraphs (a)(1)
through (8) of this section. This
information must be submitted to the
EPA as part of your plan submittal but
will not be codified as part of the
federally enforceable plan upon
approval by EPA.
(1) You must include a summary of
how you determined each standard of
performance for each designated facility
according to § 60.5755a(a). You must
include in the summary an evaluation of
the applicability of each of the following
heat rate improvements to each
designated facility:
(i) Neural network/intelligent
sootblowers;
(ii) Boiler feed pumps;
(iii) Air heater and duct leakage
control;
(iv) Variable frequency drives;
(v) Blade path upgrades for steam
turbines;
(vi) Redesign or replacement of
economizer; and
(vii) Improved operating and
maintenance practices.
(2)(i) As part of the summary under
paragraph (a)(1) of this section regarding
the applicability of each heat rate
improvement to each designated
facility, you must include an evaluation
of the following degree of emission
limitation achievable through
application of the heat rate
improvements:
TABLE 1 TO PARAGRAPH (A)(2)(I)—MOST IMPACTFUL HRI MEASURES AND RANGE OF THEIR HRI POTENTIAL (%) BY EGU
SIZE
< 200 MW
200–500 MW
>500 MW
HRI Measure
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Min
Max
Min
Improved Operating and Maintenance
(O&M) Practices ...................................
Can range from 0 to > 2.0% depending on the unit’s historical O&M practices.
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§ 60.24a(e), you must include a
summary of the application of the
relevant factors in deriving a standard of
performance.
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1.0
0.5
0.4
1.0
2.9
1.0
Max
0.5
0.2
0.1
0.2
0.9
0.5
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0.3
0.2
0.1
0.2
1.0
0.5
Min
Neural Network/Intelligent Sootblowers ...
Boiler Feed Pumps ..................................
Air Heater & Duct Leakage Control .........
Variable Frequency Drives ......................
Blade Path Upgrade (Steam Turbine) .....
Redesign/Replace Economizer ................
(ii) In applying a standard of
performance, if you consider remaining
useful life and other factors for a
designated facility as provided in
1.4
0.5
0.4
0.9
2.7
0.9
Max
0.3
0.2
0.1
0.2
1.0
0.5
0.9
0.5
0.4
1.0
2.9
1.0
(3) You must include a demonstration
that each designated facility’s standard
of performance is quantifiable,
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permanent, verifiable, and enforceable
according to § 60.5755a.
(4) Your plan demonstration must
include the information listed in
paragraphs (a)(4)(i) through (v) of this
section as applicable.
(i) A summary of each designated
facility’s anticipated future operation
characteristics, including:
(A) Annual generation;
(B) CO2 emissions;
(C) Fuel use, fuel prices, fuel carbon
content;
(D) Fixed and variable operations and
maintenance costs;
(E) Heat rates; and
(F) Electric generation capacity and
capacity factors.
(ii) A timeline for implementation.
(iii) All wholesale electricity prices.
(iv) A time period of analysis, which
must extend through at least 2035.
(v) A demonstration that each
standard of performance included in
your plan meets the requirements of
§ 60.5755a.
(5) Your plan submittal must include
certification that a hearing required
under § 60.23a(c)on the State plan was
held, a list of witnesses and their
organizational affiliations, if any,
appearing at the hearing, and a brief
written summary of each presentation or
written submission, pursuant to the
requirements of § 60.23a(g).
(6) Your plan submittal must include
supporting material for your plan
including:
(i) Materials demonstrating the State’s
legal authority to implement and
enforce each component of its plan,
including standards of performance,
pursuant to the requirements of
§§ 60.26a and 60.5740a(a)(6);
(ii) Materials supporting calculations
for designated facility’s standards of
performance according to § 60.5755a;
and
(iii) Any other materials necessary to
support evaluation of the plan by the
EPA.
(b) You must submit your final plan
to the EPA according to § 60.5800a.
§ 60.5745a What are the timing
requirements for submitting my plan?
You must submit a plan with the
information required under § 60.5740a
by July 8, 2022.
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§ 60.5750a What schedules and
compliance periods must I include in my
plan?
The EPA is superseding the
requirement at § 60.22a(b)(5) for EPA to
provide compliance timelines in the
emission guidelines. Each standard of
performance for designated facilities
regulated under the plan must include
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a compliance period that ensures the
standard of performance reflects the
degree of emission limitation achievable
though application of the heat rate
improvements used to calculate the
standard. The schedules and
compliance periods included in a plan
must follow the requirements of
§ 60.24a.
§ 60.5755a What standards of performance
must I include in my plan?
(a) You must set a standard of
performance for each designated facility
within the state.
(1) The standard of performance must
be an emission performance rate relating
mass of CO2 emitted per unit of energy
(e.g. pounds of CO2 emitted per MWh).
(2) In establishing any standard of
performance, you must consider the
applicability of each of the heat rate
improvements and associated degree of
emission limitation achievable included
in § 60.5740a(a)(1) and (2) to the
designated facility. You must include a
demonstration in your plan submission
for how you considered each heat rate
improvement and associated degree of
emission limitation achievable in
calculating each standard of
performance.
(i) In applying a standard of
performance to any designated facility,
you may consider the source-specific
factors included in § 60.24a(e).
(ii) If you consider source-specific
factors to apply a standard of
performance, you must include a
demonstration in your plan submission
for how you considered such factors.
(b) Standards of performance for
designated facilities included under
your plan must be demonstrated to be
quantifiable, verifiable, permanent, and
enforceable with respect to each
designated facility. The plan submittal
must include the methods by which
each standard of performance meets
each of the requirements in paragraphs
(c) through (f) of this section.
(c) A designated facility’s standard of
performance is quantifiable if it can be
reliably measured in a manner that can
be replicated.
(d) A designated facility’s standard of
performance is verifiable if adequate
monitoring, recordkeeping and
reporting requirements are in place to
enable the State and the Administrator
to independently evaluate, measure, and
verify compliance with the standard of
performance.
(e) A designated facility’s standard of
performance is permanent if the
standard of performance must be met for
each compliance period, unless it is
replaced by another standard of
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performance in an approved plan
revision.
(f) A designated facility’s standard of
performance is enforceable if:
(1) A technically accurate limitation
or requirement and the time period for
the limitation or requirement are
specified;
(2) Compliance requirements are
clearly defined;
(3) The designated facility responsible
for compliance and liable for violations
can be identified;
(4) Each compliance activity or
measure is enforceable as a practical
matter; and
(5) The Administrator, the State, and
third parties maintain the ability to
enforce against violations (including if a
designated facility does not meet its
standard of performance based on its
emissions) and secure appropriate
corrective actions, in the case of the
Administrator pursuant to CAA sections
113(a) through (h), in the case of a State,
pursuant to its plan, State law or CAA
section 304, as applicable, and in the
case of third parties, pursuant to CAA
section 304.
§ 60.5760a What is the procedure for
revising my plan?
EPA-approved plans can be revised
only with approval by the
Administrator. The Administrator will
approve a plan revision if it is
satisfactory with respect to the
applicable requirements of this subpart
and any applicable requirements of
subpart Ba of this part, including the
requirements in § 60.5740a. If one (or
more) of the elements of the plan set in
§ 60.5735a require revision, a request
must be submitted to the Administrator
indicating the proposed revisions to the
plan.
§ 60.5765a What must I do to meet my plan
obligations?
To meet your plan obligations, you
must demonstrate that your designated
facilities are complying with their
standards of performance as specified in
§ 60.5755a.
Applicability of Plans to Designated
Facilities
§ 60.5770a Does this subpart directly
affect EGU owners or operators in my
State?
(a) This subpart does not directly
affect EGU owners or operators in your
State. However, designated facility
owners or operators must comply with
the plan that a State develops to
implement the emission guidelines
contained in this subpart.
(b) If a State does not submit a plan
to implement and enforce the emission
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guidelines contained in this subpart by
July 8, 2022, or the date that EPA
disapproves a final plan, the EPA will
implement and enforce a Federal plan,
as provided in § 60.27a(c), applicable to
each designated facility within the State
that commenced construction on or
before January 8, 2014.
§ 60.5775a What designated facilities must
I address in my State plan?
(a) The EGUs that must be addressed
by your plan are any designated facility
that commenced construction on or
before January 8, 2014.
(b) A designated facility is a steam
generating unit that meets the relevant
applicability conditions specified in
paragraphs (b)(1) through (3) of this
section, as applicable, of this section
except as provided in § 60.5780a.
(1) Serves a generator connected to a
utility power distribution system with a
nameplate capacity greater than 25 MWnet (i.e., capable of selling greater than
25 MW of electricity).
(2) Has a base load rating (i.e., design
heat input capacity) greater than 260
GJ/hr (250 MMBtu/hr) heat input of
fossil fuel (either alone or in
combination with any other fuel).
(3) Is an electric utility steam
generating unit that burns coal for more
than 10.0 percent of the average annual
heat input during the 3 previous
calendar years.
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§ 60.5780a What EGUs are excluded from
being designated facilities?
(a) An EGU that is excluded from
being a designated facility is:
(1) An EGU that is subject to subpart
TTTT of this part as a result of
commencing construction,
reconstruction or modification after the
subpart TTTT applicability date;
(2) A steam generating unit that is
subject to a federally enforceable permit
limiting annual net-electric sales to onethird or less of its potential electric
output, or 219,000 MWh or less;
(3) A stationary combustion turbine
that meets the definition of a simple
cycle stationary combustion turbine, a
combined cycle stationary combustion
turbine, or a combined heat and power
combustion turbine;
(4) An IGCC unit;
(5) A non-fossil unit (i.e., a unit that
is capable of combusting 50 percent or
more non-fossil fuel) that has always
limited the use of fossil fuels to 10
percent or less of the annual capacity
factor or is subject to a federally
enforceable permit limiting fossil fuel
use to 10 percent or less of the annual
capacity factor;
(6) An EGU that serves a generator
along with other steam generating
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unit(s), IGCC(s), or stationary
combustion turbine(s) where the
effective generation capacity
(determined based on a prorated output
of the base load rating of each steam
generating unit, IGCC, or stationary
combustion turbine) is 25 MW or less;
(7) An EGU that is a municipal waste
combustor unit that is subject to subpart
Eb of this part;
(8) An EGU that is a commercial or
industrial solid waste incineration unit
that is subject to subpart CCCC of this
part; or
(9) A steam generating unit that fires
more than 50 percent non-fossil fuels.
(b) [Reserved]
§ 60.5785a What applicable monitoring,
recordkeeping, and reporting requirements
do I need to include in my plan for
designated facilities?
(a) Your plan must include
monitoring, recordkeeping, and
reporting requirements for designated
facilities. To satisfy this requirement,
you have the option of either:
(1) Specifying that sources must
report emission and electricity
generation data according to part 75 of
this chapter; or
(2) Including an alternative
monitoring, recordkeeping, and
reporting program that includes
specifications for the following program
elements:
(i) Monitoring plans that specify the
monitoring methods, systems, and
formulas that will be used to measure
CO2 emissions;
(ii) Monitoring methods to
continuously and accurately measure all
CO2 emissions, CO2 emission rates, and
other data necessary to determine
compliance or assure data quality;
(iii) Quality assurance test
requirements to ensure monitoring
systems provide reliable and accurate
data for assessing and verifying
compliance;
(iv) Recordkeeping requirements;
(v) Electronic reporting procedures
and systems; and
(vi) Data validation procedures for
ensuring data are complete and
calculated consistent with program
rules, including procedures for
determining substitute data in instances
where required data would otherwise be
incomplete.
(b) [Reserved]
Recordkeeping and Reporting
Requirements
§ 60.5790a What are my recordkeeping
requirements?
(a) You must keep records of all
information relied upon in support of
any demonstration of plan components,
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plan requirements, supporting
documentation, and the status of
meeting the plan requirements defined
in the plan. After the effective date of
the plan, States must keep records of all
information relied upon in support of
any continued demonstration that the
final standards of performance are being
achieved.
(b) You must keep records of all data
submitted by the owner or operator of
each designated facility that is used to
determine compliance with each
designated facility emissions standard
or requirements in an approved State
plan, consistent with the designated
facility requirements listed in
§ 60.5785a.
(c) If your State has a requirement for
all hourly CO2 emissions and generation
information to be used to calculate
compliance with an annual emissions
standard for designated facilities, any
information that is submitted by the
owners or operators of designated
facilities to the EPA electronically
pursuant to requirements in part 75 of
this chapter meets the recordkeeping
requirement of this section and you are
not required to keep records of
information that would be in duplicate
of paragraph (b) of this section.
(d) You must keep records at a
minimum for 5 years from the date the
record is used to determine compliance
with a standard of performance or plan
requirement. Each record must be in a
form suitable and readily available for
expeditious review.
§ 60.5795a What are my reporting and
notification requirements?
You must submit an annual report as
required under § 60.25a(e) and (f).
§ 60.5800a How do I submit information
required by these Emission Guidelines to
the EPA?
(a) You must submit to the EPA the
information required by these emission
guidelines following the procedures in
paragraphs (b) through (e) of this section
unless you submit through the
procedure described in paragraph (f) of
this section.
(b) All negative declarations, State
plan submittals, supporting materials
that are part of a State plan submittal,
any plan revisions, and all State reports
required to be submitted to the EPA by
the State plan may be reported through
EPA’s electronic reporting system to be
named and made available at a later
date.
(c) Only a submittal by the Governor
or the Governor’s designee by an
electronic submission through SPeCS
shall be considered an official submittal
to the EPA under this subpart. If the
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Governor wishes to designate another
responsible official the authority to
submit a State plan, the EPA must be
notified via letter from the Governor
prior to the July 8, 2022, deadline for
plan submittal so that the official will
have the ability to submit a plan in the
SPeCS. If the Governor has previously
delegated authority to make CAA
submittals on the Governor’s behalf, a
State may submit documentation of the
delegation in lieu of a letter from the
Governor. The letter or documentation
must identify the designee to whom
authority is being designated and must
include the name and contact
information for the designee and also
identify the State plan preparers who
will need access to the EPA electronic
reporting system. A State may also
submit the names of the State plan
preparers via a separate letter prior to
the designation letter from the Governor
in order to expedite the State plan
administrative process. Required
contact information for the designee and
preparers includes the person’s title,
organization, and email address.
(d) The submission of the information
by the authorized official must be in a
non-editable format. In addition to the
non-editable version all plan
components designated as federally
enforceable must also be submitted in
an editable version.
(e) You must provide the EPA with
non-editable and editable copies of any
submitted revision to existing approved
federally enforceable plan components.
The editable copy of any such submitted
plan revision must indicate the changes
made at the State level, if any, to the
existing approved federally enforceable
plan components, using a mechanism
such as redline/strikethrough. These
changes are not part of the State plan
until formal approval by EPA.
(f) If, in lieu of the requirements
described in paragraphs (b) through (e)
of this section, you choose to submit a
paper copy or an electronic version by
other means you must confer with your
EPA Regional Office regarding the
additional guidelines for submitting
your plan.
Definitions
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§ 60.5805a
subpart?
What definitions apply to this
As used in this subpart, all terms not
defined herein will have the meaning
given them in the Clean Air Act and in
subparts TTTT, A, and Ba of this part.
Air Heater means a device that
recovers heat from the flue gas for use
in pre-heating the incoming combustion
air and potentially for other uses such
as coal drying.
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Annual capacity factor means the
ratio between the actual heat input to an
EGU during a calendar year and the
potential heat input to the EGU had it
been operated for 8,760 hours during a
calendar year at the base load rating.
Base load rating means the maximum
amount of heat input (fuel) that an EGU
can combust on a steady-state basis, as
determined by the physical design and
characteristics of the EGU at ISO
conditions.
Boiler feed pump (or boiler feedwater
pump) means a device used to pump
feedwater into a steam boiler at an EGU.
The water may be either freshly
supplied or returning condensate
produced from condensing steam
produced by the boiler.
CO2 emission rate means for a
designated facility, the reported CO2
emission rate of a designated facility
used by a designated facility to
demonstrate compliance with its CO2
standard of performance.
Combined cycle unit means an
electric generating unit that uses a
stationary combustion turbine from
which the heat from the turbine exhaust
gases is recovered by a heat recovery
steam generating unit to generate
additional electricity.
Combined heat and power unit or
CHP unit (also known as
‘‘cogeneration’’) means an electric
generating unit that uses a steamgenerating unit or stationary combustion
turbine to simultaneously produce both
electric (or mechanical) and useful
thermal output from the same primary
energy source.
Compliance period means a discrete
time period for a designated facility to
comply with a standard of performance.
Designated facility means a steam
generating unit that meets the relevant
applicability conditions in section
§ 60.5775a, except as provided in
§ 60.5780a.
Economizer means a heat exchange
device used to capture waste heat from
boiler flue gas which is then used to
heat the boiler feedwater.
Fossil fuel means natural gas,
petroleum, coal, and any form of solid
fuel, liquid fuel, or gaseous fuel derived
from such material to create useful heat.
Integrated gasification combined
cycle facility or IGCC means a combined
cycle facility that is designed to burn
fuels containing 50 percent (by heat
input) or more solid-derived fuel not
meeting the definition of natural gas
plus any integrated equipment that
provides electricity or useful thermal
output to either the affected facility or
auxiliary equipment. The Administrator
may waive the 50 percent solid-derived
fuel requirement during periods of the
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32583
gasification system construction, startup
and commissioning, shutdown, or
repair. No solid fuel is directly burned
in the unit during operation.
Intelligent sootblower means an
automated system that use process
measurements to monitor the heat
transfer performance and strategically
allocate steam to specific areas to
remove ash buildup at a steam
generating unit.
ISO conditions means 288 Kelvin
(15 °C), 60 percent relative humidity
and 101.3 kilopascals pressure.
Nameplate capacity means, starting
from the initial installation, the
maximum electrical generating output
that a generator, prime mover, or other
electric power production equipment
under specific conditions designated by
the manufacturer is capable of
producing (in MWe, rounded to the
nearest tenth) on a steady-state basis
and during continuous operation (when
not restricted by seasonal or other
deratings) as of such installation as
specified by the manufacturer of the
equipment, or starting from the
completion of any subsequent physical
change resulting in an increase in the
maximum electrical generating output
that the equipment is capable of
producing on a steady-state basis and
during continuous operation (when not
restricted by seasonal or other
deratings), such increased maximum
amount (in MWe, rounded to the nearest
tenth) as of such completion as
specified by the person conducting the
physical change.
Natural gas means a fluid mixture of
hydrocarbons (e.g., methane, ethane, or
propane), composed of at least 70
percent methane by volume or that has
a gross calorific value between 35 and
41 megajoules (MJ) per dry standard
cubic meter (950 and 1,100 Btu per dry
standard cubic foot), that maintains a
gaseous State under ISO conditions. In
addition, natural gas contains 20.0
grains or less of total sulfur per 100
standard cubic feet. Finally, natural gas
does not include the following gaseous
fuels: Landfill gas, digester gas, refinery
gas, sour gas, blast furnace gas, coalderived gas, producer gas, coke oven
gas, or any gaseous fuel produced in a
process which might result in highly
variable sulfur content or heating value.
Net electric output means the amount
of gross generation the generator(s)
produce (including, but not limited to,
output from steam turbine(s),
combustion turbine(s), and gas
expander(s)), as measured at the
generator terminals, less the electricity
used to operate the plant (i.e., auxiliary
loads); such uses include fuel handling
equipment, pumps, fans, pollution
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control equipment, other electricity
needs, and transformer losses as
measured at the transmission side of the
step up transformer (e.g., the point of
sale).
Net energy output means:
(1) The net electric or mechanical
output from the affected facility, plus
100 percent of the useful thermal output
measured relative to SATP conditions
that is not used to generate additional
electric or mechanical output or to
enhance the performance of the unit
(e.g., steam delivered to an industrial
process for a heating application).
(2) For combined heat and power
facilities where at least 20.0 percent of
the total gross or net energy output
consists of electric or direct mechanical
output and at least 20.0 percent of the
total gross or net energy output consists
of useful thermal output on a 12operating month rolling average basis,
the net electric or mechanical output
from the designated facility divided by
0.95, plus 100 percent of the useful
thermal output; (e.g., steam delivered to
an industrial process for a heating
application).
Neural network means a computer
model that can be used to optimize
combustion conditions, steam
temperatures, and air pollution at steam
generating unit.
Simple cycle combustion turbine
means any stationary combustion
turbine which does not recover heat
from the combustion turbine engine
exhaust gases for purposes other than
enhancing the performance of the
stationary combustion turbine itself.
Standard ambient temperature and
pressure (SATP) conditions means
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298.15 Kelvin (25 °C, 77 °F) and 100.0
kilopascals (14.504 psi, 0.987 atm)
pressure. The enthalpy of water at SATP
conditions is 50 Btu/lb.
State agent means an entity acting on
behalf of the State, with the legal
authority of the State.
Stationary combustion turbine means
all equipment, including but not limited
to the turbine engine, the fuel, air,
lubrication and exhaust gas systems,
control systems (except emissions
control equipment), heat recovery
system, fuel compressor, heater, and/or
pump, post-combustion emissions
control technology, and any ancillary
components and sub-components
comprising any simple cycle stationary
combustion turbine, any combined
cycle combustion turbine, and any
combined heat and power combustion
turbine based system plus any
integrated equipment that provides
electricity or useful thermal output to
the combustion turbine engine, heat
recovery system or auxiliary equipment.
Stationary means that the combustion
turbine is not self-propelled or intended
to be propelled while performing its
function. It may, however, be mounted
on a vehicle for portability. If a
stationary combustion turbine burns any
solid fuel directly it is considered a
steam generating unit.
Steam generating unit means any
furnace, boiler, or other device used for
combusting fuel and producing steam
(nuclear steam generators are not
included) plus any integrated
equipment that provides electricity or
useful thermal output to the affected
facility or auxiliary equipment.
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Useful thermal output means the
thermal energy made available for use in
any heating application (e.g., steam
delivered to an industrial process for a
heating application, including thermal
cooling applications) that is not used for
electric generation, mechanical output
at the designated facility, to directly
enhance the performance of the
designated facility (e.g., economizer
output is not useful thermal output, but
thermal energy used to reduce fuel
moisture is considered useful thermal
output), or to supply energy to a
pollution control device at the
designated facility. Useful thermal
output for designated facility(s) with no
condensate return (or other thermal
energy input to the designated
facility(s)) or where measuring the
energy in the condensate (or other
thermal energy input to the designated
facility(s)) would not meaningfully
impact the emission rate calculation is
measured against the energy in the
thermal output at SATP conditions.
Designated facility(s) with meaningful
energy in the condensate return (or
other thermal energy input to the
designated facility) must measure the
energy in the condensate and subtract
that energy relative to SATP conditions
from the measured thermal output.
Variable frequency drive means an
adjustable-speed drive used on induced
draft fans and boiler feed pumps to
control motor speed and torque by
varying motor input frequency and
voltage.
[FR Doc. 2019–13507 Filed 7–5–19; 8:45 am]
BILLING CODE 6560–50–P
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]]>Agencies
[Federal Register Volume 84, Number 130 (Monday, July 8, 2019)]
[Rules and Regulations]
[Pages 32520-32584]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2019-13507]
[[Page 32519]]
Vol. 84
Monday,
No. 130
July 8, 2019
Part II
Environmental Protection Agency
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40 CFR Part 60
Repeal of the Clean Power Plan; Emission Guidelines for Greenhouse Gas
Emissions From Existing Electric Utility Generating Units; Revisions to
Emission Guidelines Implementing Regulations; Final Rule
��Federal Register / Vol. 84 , No. 130 / Monday, July 8, 2019 / Rules
and Regulations��
[[Page 32520]]
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ENVIRONMENTAL PROTECTION AGENCY
40 CFR Part 60
[EPA-HQ-OAR-2017-0355: FRL-9995-70-OAR]
RIN 2060-AT67
Repeal of the Clean Power Plan; Emission Guidelines for
Greenhouse Gas Emissions From Existing Electric Utility Generating
Units; Revisions to Emission Guidelines Implementing Regulations
AGENCY: Environmental Protection Agency (EPA).
ACTION: Final rule.
-----------------------------------------------------------------------
SUMMARY: The U.S. Environmental Protection Agency (EPA) is finalizing
three separate and distinct rulemakings. First, the EPA is repealing
the Clean Power Plan (CPP) because the Agency has determined that the
CPP exceeded the EPA's statutory authority under the Clean Air Act
(CAA). Second, the EPA is finalizing the Affordable Clean Energy rule
(ACE), consisting of Emission Guidelines for Greenhouse Gas (GHG)
Emissions from Existing Electric Utility Generating Units (EGUs) under
CAA section 111(d), that will inform states on the development,
submittal, and implementation of state plans to establish performance
standards for GHG emissions from certain fossil fuel-fired EGUs. In
ACE, the Agency is finalizing its determination that heat rate
improvement (HRI) is the best system of emission reduction (BSER) for
reducing GHG--specifically carbon dioxide (CO2)--emissions
from existing coal-fired EGUs. Third, the EPA is finalizing new
regulations for the EPA and state implementation of ACE and any future
emission guidelines issued under CAA section 111(d).
DATES: Effective September 6, 2019.
ADDRESSES: The EPA has established a docket for these actions under
Docket ID No. EPA-HQ-OAR-2017-0355. All documents in the docket are
listed on the https://www.regulations.gov/ website. Although listed,
some information is not publicly available, e.g., confidential business
information (CBI) or other information whose disclosure is restricted
by statute. Certain other material, such as copyrighted material, is
not placed on the internet and will be publicly available only in hard
copy form. Publicly available docket materials are available
electronically through https://www.regulations.gov/ or in hard copy at
the EPA Docket Center, WJC West Building, Room 3334, 1301 Constitution
Ave. NW, Washington, DC. The EPA's Public Reading Room hours of
operation are 8:30 a.m. to 4:30 p.m. Eastern Standard Time (EST),
Monday through Friday. The telephone number for the Public Reading Room
is (202) 566-1744, and the telephone number for the EPA Docket Center
is (202) 566-1742.
FOR FURTHER INFORMATION CONTACT: For questions about these final
actions, contact Mr. Nicholas Swanson, Sector Policies and Programs
Division (Mail Code D205-01), Office of Air Quality Planning and
Standards, U.S. Environmental Protection Agency, Research Triangle
Park, North Carolina 27711; telephone number: (919) 541-4080; fax
number: (919) 541-4991; and email address: [email protected].
SUPPLEMENTARY INFORMATION:
Preamble acronyms and abbreviations. The EPA uses multiple acronyms
and terms in this preamble. While this list may not be exhaustive, to
ease the reading of this preamble and for reference purposes, the EPA
defines the following terms and acronyms:
ACE Affordable Clean Energy Rule
AEO Annual Energy Outlook
ANPRM Advance Notice of Proposed Rulemaking
BACT Best Available Control Technology
BSER Best System of Emission Reduction
Btu British Thermal Unit
CAA Clean Air Act
CCS Carbon Capture and Storage (or Sequestration)
CFR Code of Federal Regulation
CO2 Carbon Dioxide
CPP Clean Power Plan
EGU Electric Utility Generating Unit
EIA Energy Information Administration
EPA Environmental Protection Agency
FIP Federal Implementation Plan
GHG Greenhouse Gas
HRI Heat Rate Improvement
IGCC Integrated Gasification Combined Cycle
kW Kilowatt
kWh Kilowatt-hour
MW Megawatt
MWh Megawatt-hour
NAAQS National Ambient Air Quality Standards
NGCC Natural Gas Combined Cycle
NOX Nitrogen Oxides
NSPS New Source Performance Standards
NSR New Source Review
OMB Office of Management and Budget
PM2.5 Fine Particulate Matter
PRA Paperwork Reduction Act
PSD Prevention of Significant Deterioration
RIA Regulatory Impact Analysis
RTC Response to Comments
SIP State Implementation Plan
SO2 Sulfur Dioxide
UMRA Unfunded Mandates Reform Act
U.S. United States
VFD Variable Frequency Drive
Organization of this document. The information in this preamble is
organized as follows:
I. General Information
A. Executive Summary
B. Where can I get a copy of this document and other eelated
information?
C. Judicial Review and Administrative Reconsideration
II. Repeal of the Clean Power Plan
A. Background for the Repeal of the Clean Power Plan
B. Basis for Repealing the Clean Power Plan
C. Independence of Repeal of the Clean Power Plan
III. The Affordable Clean Energy Rule
A. The Affordable Clean Energy Rule Background
B. Legal Authority To Regulate EGUs
C. Designated Facilities for the Affordable Clean Energy Rule
D. Regulated Pollutant
E. Determination of the Best System of Emission Reduction
F. State Plan Development
G. Impacts of the Affordable Clean Energy Rule
IV. Changes to the Implementing Regulations for CAA Section 111(d)
Emission Guidelines
A. Regulatory Background
B. Provisions for Superseding Implementing Regulations
C. Changes to the Definition of ``Emission Guidelines''
D. Updates to Timing Requirements
E. Compliance Deadlines
F. Completeness Criteria
G. Standard of Performance
H. Remaining Useful Life and Other Factors Provision
V. Statutory and Executive Order Reviews
A. Executive Order 12866: Regulatory Planning and Review and
Executive Order 13563: Improving Regulation and Regulatory Review
B. Executive Order 13771: Reducing Regulation and Controlling
Regulatory Costs
C. Paperwork Reduction Act (PRA)
D. Regulatory Flexibility Act (RFA)
E. Unfunded Mandates Reform Act (UMRA)
F. Executive Order 13132: Federalism
G. Executive Order 13175: Consultation and Coordination With
Indian Tribal Governments
H. Executive Order 13045: Protection of Children From
Environmental Health Risks and Safety Risks
I. Executive Order 13211: Actions Concerning Regulations That
Significantly Affect Energy Supply, Distribution, or Use
J. National Technology Transfer and Advancement Act (NTTAA)
K. Executive Order 12898: Federal Actions To Address
Environmental Justice in Minority Populations and Low-Income
Populations
L. Congressional Review Act (CRA)
VI. Statutory Authority
[[Page 32521]]
I. General Information
A. Executive Summary
With this document, the EPA is, after review and consideration of
public comments, finalizing three separate and distinct rulemakings.
First, the EPA is finalizing the repeal of the CPP which was proposed
at 82 FR 48035 (Oct. 16, 2017) (``Proposed Repeal''). Second, the EPA
is promulgating ACE, which consists of emission guidelines for states
to develop and submit to the EPA plans that establish standards of
performance for CO2 emissions from certain existing coal-
fired EGUs within their jurisdictions. Third, the EPA is finalizing
implementing regulations that provide direction to both the EPA and
states on the implementation of ACE and any future emission guidelines
issued under CAA section 111(d). This document does not include any
final action concerning the New Source Review (NSR) reforms the EPA
proposed in conjunction with the ACE proposal; the EPA intends to take
final action on the proposed NSR reforms in a separate final action at
a later date.
First, the EPA is repealing the CPP. In proposing to repeal the
CPP, the Agency proposed a change in the legal interpretation of CAA
section 111, on which the CPP was based, to an interpretation of the
CAA that ``is consistent with the CAA's text, context, structure,
purpose, and legislative history, as well as with the Agency's
historical understanding and exercise of its statutory authority.'' \1\
After further review of the EPA's statutory authority under CAA section
111 and in consideration of public comments, the Agency is finalizing
the repeal of the CPP. The discussion of the repeal action, along with
the EPA's explanation that it intends the repeal of the CPP to be
independent from the other final actions in this document, can be found
in section II below.
---------------------------------------------------------------------------
\1\ Proposed Repeal, 82 FR 48036.
---------------------------------------------------------------------------
Second, the EPA is finalizing ACE, which consists of emission
guidelines to inform states in the development, submittal, and
implementation of state plans that establish standards of performance
for CO2 from certain existing coal-fired EGUs within their
jurisdictions. In these emission guidelines, the EPA has determined
that the BSER for existing EGUs is based on HRI measures that can be
applied to a designated facility. ACE also clarifies the roles of the
EPA and the states under CAA section 111(d). With the promulgation of
this action, it is the states' responsibility to use the information
and direction herein to develop standards of performance that reflect
the application of the BSER. Per the CAA, states may also consider
source-specific factors--including, among other factors, the remaining
useful life of an existing source--in applying a standard of
performance to that source. In this way, the state and federal roles
complement each other as the EPA has the authority and responsibility
to determine BSER at the national level, while the states have the
authority and responsibility to establish and apply standards of
performance for their existing sources, taking into consideration
source-specific factors where appropriate. A full discussion of ACE can
be found in section III of this preamble.
Third, the EPA is finalizing new implementing regulations that
apply to ACE and any future emission guidelines promulgated under CAA
section 111(d). The purpose of the new implementing regulations is to
harmonize aspects of our existing regulations with the statute, in a
new 40 CFR part 60, subpart Ba, by making it clear that states have
broad discretion in establishing and applying emissions standards
consistent with the BSER. The new implementing regulations also provide
changes to the timing requirements for the EPA and states to take
action to more closely align with the CAA section 110 state
implementation plan (SIP) and federal implementation plan (FIP)
deadlines. The discussion of the final revisions to the implementing
regulations is found in section IV below.
The implementing regulations (and ACE which is promulgated
consistent with those regulations) make clear that the EPA, states, and
sources all have distinct roles, responsibilities, and flexibilities
under CAA section 111(d). Specifically, the EPA identifies the BSER;
states establish standards of performance for existing sources within
their jurisdiction consistent with that BSER and also with the
flexibility to consider source-specific factors, including remaining
useful life; and sources then meet those standards using the
technologies or techniques they believe is most appropriate. As this
preamble explains, in the case of ACE, the EPA has identified the BSER
as a set of heat rate improvement measures. States will establish
standards of performance for existing sources based on application of
those heat rate improvement measures (considering source-specific
factors, including remaining useful life). Each regulated source then
must meet those standards using the measures they believe is
appropriate (e.g., via the heat rate improvement measures identified by
the EPA as the BSER, other heat rate improvement measures, or other
approaches such as CCS or natural gas co-firing).
These three rules have been informed by more than 1.5 million
public comments on the Proposed Repeal and 500,000 public comments on
the proposals for ACE and the new implementing regulations. Per CAA
section 307(d)(6)(B), the EPA is providing a response to the
significant comments received for each of these actions in the docket.
After careful consideration of the comments, the EPA is finalizing
these three rules, with revisions to what it proposed where
appropriate, to provide states guidance on how to address
CO2 emissions from coal-fired power plants in a way that is
consistent with the EPA's authority under the CAA.
B. Where can I get a copy of this document and other related
information?
In addition to being available in the docket, an electronic copy of
this document is available on the internet. Following signature by the
EPA Administrator, the EPA will post a copy of this document at https://www.epa.gov/stationary-sources-air-pollution/electric-utility-generating-units-emission-guidelines-greenhouse. Following publication
in the Federal Register, the EPA will post the Federal Register version
of these final rules and key technical documents at this same website.
C. Judicial Review and Administrative Reconsideration
Under CAA section 307(b)(1), judicial review of these final actions
is available only by filing a petition for review in the United States
Court of Appeals for the District of Columbia Circuit (D.C. Circuit) by
September 6, 2019. Under CAA section 307(b)(2), the requirements
established by these final rules may not be challenged separately in
any civil or criminal proceedings brought by the EPA to enforce the
requirements.
Section 307(d)(7)(B) of the CAA further provides that only an
objection to a rule or procedure which was raised with reasonable
specificity during the period for public comment (including any public
hearing) may be raised during judicial review. This section also
provides a mechanism for the EPA to reconsider a rule if the person
raising an objection can demonstrate to the Administrator that it was
impracticable to raise such objection within the period for public
comment or if the grounds for such objection arose after the period for
public comment (but within the time
[[Page 32522]]
specified for judicial review) and if such objection is of central
relevance to the outcome of the rule. Any person seeking to make such a
demonstration should submit a Petition for Reconsideration to the
Office of the Administrator, U.S. EPA, Room 3000, WJC South Building,
1200 Pennsylvania Ave. NW, Washington, DC 20460, with a copy to both
the person(s) listed in the preceding FOR FURTHER INFORMATION CONTACT
section, and the Associate General Counsel for the Air and Radiation
Law Office, Office of General Counsel (Mail Code 2344A), U.S. EPA, 1200
Pennsylvania Ave. NW, Washington, DC 20460.
II. Repeal of the Clean Power Plan
A. Background for the Repeal of the Clean Power Plan
1. The Clean Power Plan
The EPA promulgated the CPP under section 111 of the CAA.\2\
Section 111(b) authorizes the EPA to issue nationally applicable new
source performance standards (NSPS) limiting air pollution from ``new
sources'' in source categories that cause or significantly contribute
to air pollution that may reasonably be anticipated to endanger public
health or welfare.\3\ In 2015, the EPA issued such a rule for GHG
emissions--in particular, CO2--from certain new fossil fuel-
fired power plants \4\ in light of the Agency's assessment ``that GHGs
endanger public health, now and in the future.'' \5\ CAA section 111(d)
provides that, under certain circumstances, when the EPA issues a CAA
section 111(b) standard, the EPA must develop procedures requiring each
state to submit a plan to the EPA that establishes performance
standards for existing sources in the same category.\6\ The EPA relied
on CAA section 111(d) to issue the CPP, which, for the first time,
required states to submit plans specifically designed to limit
CO2 emissions from certain existing fossil fuel-fired power
plants.
---------------------------------------------------------------------------
\2\ 42 U.S.C. 7411.
\3\ Id. 7411(b)(1).
\4\ The CPP identified ``[f]ossil fuel-fired EGUs'' as ``by far
the largest emitters of GHGs among stationary sources in the U.S.,
primarily in the form of CO2.'' 80 FR 64510, 64522
(October 23, 2015).
\5\ Standards of Performance for Greenhouse Gas Emissions from
New, Modified, and Reconstructed Stationary Sources: Electric
Generating Units, 80 FR 64510, 64518 (October 23, 2015); see also
Endangerment and Cause or Contribute Findings for Greenhouse Gases
Under section 202(a) of the CAA, 74 FR 66496 (December 15, 2009)
(2009 Endangerment Finding). The substance of the 2009 Endangerment
Finding, which addressed GHG emissions from mobile sources, is not
at issue in this action.
\6\ 42 U.S.C. 7411(d)(1) (emphasis added).
---------------------------------------------------------------------------
The CPP established emission guidelines for states to follow in
limiting CO2 emissions from those existing fossil fuel-fired
power plants. Those emission guidelines included both state-specific
``goals'' and alternative, nationally uniform CO2 emission
performance rates for two types of existing fossil fuel-fired power
plants: Electric utility steam generating units and stationary
combustion turbines.\7\
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\7\ See 80 FR 64707.
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In the CPP, the EPA determined that the BSER for CO2
emissions from existing fossil fuel-fired power plants was the
combination of: (1) Heat rate (e.g., efficiency) improvements to be
conducted at individual power plants, in combination with (2, 3) two
other sets of measures based on the shifting of generation at the
fleet-wide level from one type of energy source to another. The EPA
referred to these three sets of measures as ``building blocks'': \8\
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\8\ Id.
---------------------------------------------------------------------------
1. Improving heat rate at affected coal-fired steam generating
units;
2. Substituting increased generation from lower-emitting existing
natural gas combined cycle units for decreased generation from higher-
emitting affected steam generating units; and
3. Substituting increased generation from new zero-emitting
renewable energy generating capacity for decreased generation from
affected fossil fuel-fired generating units.
While building block 1 relied on measures that could be applied
directly to individual sources, building blocks 2 and 3 employed
measures that were expressly designed to shift the balance of coal-,
gas-, and renewable-generated power across the power grid.
2. Legal Challenges to the CPP, Executive Order 13783, and the EPA's
Review of the CPP
On October 23, 2015, 27 states and a number of other parties sought
judicial review of the CPP in the U.S. Court of Appeals for the D.C.
Circuit.\9\ After some preliminary briefing, the Supreme Court stayed
implementation of the CPP, pending judicial review.\10\ The case was
then referred to an en banc panel of the D.C. Circuit, which held oral
argument on September 27, 2016.
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\9\ See West Virginia v. EPA, No. 15-1363 (and consolidated
cases) (D.C. Cir. October 23, 2015).
\10\ West Virginia v. EPA, 136 S. Ct. 1000 (2016).
---------------------------------------------------------------------------
On March 28, 2017, President Trump issued Executive Order 13783,
which affirms the ``national interest to promote clean and safe
development of our Nation's vast energy resources, while at the same
time avoiding regulatory burdens that unnecessarily encumber energy
production, constrain economic growth, and prevent job creation.'' \11\
The Executive Order directs all executive departments and agencies,
including the EPA, to ``immediately review existing regulations that
potentially burden the development or use of domestically produced
energy resources and appropriately suspend, revise, or rescind those
that unduly burden the development of domestic energy resources beyond
the degree necessary to protect the public interest or otherwise comply
with the law.'' \12\ The Executive Order further affirms that it is
``the policy of the United States that necessary and appropriate
environmental regulations comply with the law.'' \13\ Moreover, the
Executive Order specifically directs the EPA to review and initiate
reconsideration proceedings to ``suspend, revise, or rescind'' the CPP
``as appropriate and consistent with law.'' \14\
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\11\ See Executive Order 13783, section 1(a).
\12\ Id. section 1(c).
\13\ Id. section 1(e).
\14\ Id. section 4(a)-(c).
---------------------------------------------------------------------------
In a document signed the same day as Executive Order 13783 and
published in the Federal Register at 82 FR 16329 (April 4, 2017), the
EPA announced that, consistent with the Executive Order, it was
initiating its review of the CPP and providing notice of forthcoming
proposed rulemakings consistent with the Executive Order.
In light of Executive Order 13783, the EPA's initiation of a review
of the CPP, and notice of the EPA's forthcoming rulemakings, the EPA
asked the D.C. Circuit to hold the CPP litigation in abeyance, and, on
April 28, 2017, the court (still sitting en banc) granted motions to
hold the cases in abeyance for 60 days and directed the parties to file
briefs addressing whether the cases should be remanded to the Agency
rather than held in abeyance.\15\ Since then, the D.C. Circuit has
issued a series of orders holding the cases in abeyance. While the case
has been in abeyance, the EPA has been reviewing the CPP and providing
status reports to the court describing the progress of its rulemaking.
---------------------------------------------------------------------------
\15\ Order, Document No. 1673071 (per curiam).
---------------------------------------------------------------------------
In the course of the EPA's review of the CPP, the Agency also
reevaluated its interpretation of CAA section 111, and, on that basis,
the Agency proposed to repeal the CPP.\16\
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\16\ See Proposed Repeal, 82 FR 48035 (October 16, 2017).
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3. Public Comment and Hearings on the Proposed Repeal
Publication of the Proposed Repeal in the Federal Register opened
comment on the proposal for an initial 60-day
[[Page 32523]]
public comment period. The EPA held public hearings on November 28 and
29, 2017, in Charleston, West Virginia, and then extended the public
comment period until January 16, 2018. In response to requests for
additional opportunities for oral testimony, the EPA held three
listening sessions in Kansas City, Missouri; San Francisco, California;
and Gillette, Wyoming. The EPA also reopened the public comment period
until April 26, 2018, giving stakeholders 192 days to review and
comment on the proposal. The EPA received more than 1.5 million
comments on the Proposed Repeal.
B. Basis for Repealing the Clean Power Plan
1. Authority To Revisit Existing Regulations
The EPA's ability to revisit existing regulations is well-grounded
in the law. Specifically, the EPA has inherent authority to reconsider,
repeal, or revise past decisions to the extent permitted by law so long
as the Agency provides a reasoned explanation. The authority to
reconsider prior decisions exists in part because the EPA's
interpretations of statutes it administers ``[are not] instantly carved
in stone,'' but must be evaluated ``on a continuing basis.'' \17\ This
is true when, as is the case here, review is undertaken ``in response
to . . . a change in administrations.'' \18\ Indeed, ``[a]gencies
obviously have broad discretion to reconsider a regulation at any
time.'' \19\
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\17\ Chevron U.S.A. Inc. v. NRDC, Inc., 467 U.S. 837, 863-64
(1984).
\18\ National Cable & Telecommunications Ass'n v. Brand X
internet Services, 545 U.S. 967, 981 (2005).
\19\ Clean Air Council v. Pruitt, 862 F.3d 1, 8-9 (D.C. Cir.
2017).
---------------------------------------------------------------------------
2. Legal Basis for Repeal of the Clean Power Plan
The CPP departed from the EPA's traditional understanding of its
authority under section 111 of the CAA and promulgated a rule in excess
of its statutory authority. Because the CPP significantly exceeded the
Agency's authority, it must be repealed.\20\ Fundamentally, the CPP
read the statutory term ``best system of emission reduction'' so
broadly as to encompass measures the EPA had never before envisioned in
promulgating performance standards under CAA section 111. In contrast
to its traditional regulations that set performance standards based on
the application of equipment and practices at the level of an
individual facility, the EPA in the CPP set standards that could only
be achieved by a shift in the energy generation mix at the grid level,
requiring a shift from one type of fossil-fuel-fired generation to
another, and from fossil-fuel-fired generation as a whole towards
renewable sources of energy. The text of the CAA is inconsistent with
that interpretation, and the context, structure, and legislative
history confirm that the statutory interpretation underlying the CPP
was not a permissible construction of the Act.
---------------------------------------------------------------------------
\20\ As noted above, the EPA received more than 1.5 million
comments on the Proposed Repeal. The Agency's consideration of and
responses to significant comments are reflected in section II.B.2 of
this preamble.
---------------------------------------------------------------------------
a. CAA Requirements and Background
In 1970, Congress enacted section 111(b) of the CAA, authorizing
the EPA to promulgate ``standards of performance'' for new stationary
sources in certain source categories.\21\ Congress also directed the
EPA, under CAA section 111(d), to ``prescribe regulations which shall
establish a procedure'' \22\ for states to establish standards \23\ for
existing sources of certain air pollutants to which a standard of
performance would apply if such existing source were a new source.\24\
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\21\ CAA Amendments of 1970, Public Law 91-604, 84 Stat. at
1683-84 (Dec. 31, 1970); see also 42 U.S.C. 7411(b).
\22\ See section IV (addressing changes to the implementing
regulations).
\23\ As originally enacted, CAA section 111 required states to
establish ``emission standards'' for existing sources, but Congress
replaced that term with ``standard of performance'' as part of the
CAA Amendments of 1977. See Public Law 95-95, 91 Stat. at 699 (Aug.
7, 1977) (``Section 111(d)(1) . . . is amended by striking out
`emissions standards' in each place it appears and inserting in lieu
thereof `standards of performance' '').
\24\ CAA Amendments of 1970, 84 Stat. at 1684; see also 42
U.S.C. 7411(d).
---------------------------------------------------------------------------
Since 1990, new- and existing-source CAA section 111 rulemakings
have been governed by the same statutory definitions.\25\ The CAA
defines the term ``standard of performance'' in two sections. CAA
section 111(a)(1) defines it, for purposes of section 111 (which
contains the new- and existing-source performance standard authority
in, respectively, CAA section 111(b) and 111(d)), as:
---------------------------------------------------------------------------
\25\ See infra n.51.
a standard for emissions of air pollutants which reflects the degree
of emission limitation achievable through the application of the
best system of emission reduction which (taking into account the
cost of achieving such reduction and any nonair quality health and
environmental impact and energy requirements) the Administrator
determines has been adequately demonstrated.\26\
---------------------------------------------------------------------------
\26\ 42 U.S.C. 7411(a)(1).
And CAA section 302(l) defines ``standard of performance'' as ``a
requirement of continuous emission reduction, including any requirement
relating to the operation or maintenance of a source to assure
continuous reduction.'' \27\
---------------------------------------------------------------------------
\27\ 42 U.S.C. 7602(l).
---------------------------------------------------------------------------
EPA's role under CAA section 111(d) is narrow. Indeed, CAA section
111(d) tasks states with ``establish[ing] standards of performance for
any existing source'' and ``provid[ing] for the implementation and
enforcement of such standards of performance.'' It requires further
that the regulations the EPA is directed to adopt must permit the state
``to take into consideration, among other factors, the remaining useful
life of the existing source to which such standard [of performance]
applies.'' \28\ After all, Congress found that ``air pollution
prevention . . . and air pollution control at its source is the primary
responsibility of States and local governments.'' \29\
---------------------------------------------------------------------------
\28\ 42 U.S.C. 7411(d)(1).
\29\ 42 U.S.C. 7401(a)(3).
---------------------------------------------------------------------------
In contrast to CAA section 111(b) (where the EPA may directly
establish performance standards for emissions from new sources), the
EPA implements CAA section 111(d) by issuing regulations that it calls
``emission guidelines'' \30\ These guidelines provide states with
information to assist them in developing state plans establishing
standards of performance for existing designated facilities within
their jurisdiction that are submitted to the EPA for review. Such
information includes the EPA's determination of the ``best system of
emission reduction,'' which is commonly referred to as the BSER.
---------------------------------------------------------------------------
\30\ See American Elec. Power Co. v. Connecticut, 564 U.S. 410,
424 (2011). See generally Section IV, infra (discussing the
promulgation of revised implementing regulations governing the EPA's
issuance of emission guidelines); 40 CFR part 60, subpart B.
---------------------------------------------------------------------------
b. The Plain Meaning of CAA Sections 111(a)(1) and (d)
CAA section 111(d) provides that ``each State shall submit to the
Administrator a plan which (A) establishes standards of performance for
any existing source for [certain air pollutants] . . . and (B) provides
for the implementation and enforcement of such standards of
performance.'' \31\ Given how Congress has defined the phrase
``standard of performance'' for purposes of CAA section 111, the plain
meaning of CAA section 111(d), therefore is that states shall submit a
plan which ``establishes [a standard for
[[Page 32524]]
emissions of air pollutants which reflects the degree of emission
limitation achievable through the application of the [BSER] . . .] for
any existing source.''
---------------------------------------------------------------------------
\31\ 42 U.S.C. 7411(d)(1) (emphasis added).
---------------------------------------------------------------------------
While CAA section 111(a)(1) provides that the EPA determines the
BSER upon which existing-source performance standards are based,
Congress expressly limited the universe of systems of emission
reduction from which the EPA may choose the BSER to those systems whose
``application'' to an ``existing source'' will yield an ``achievable''
``degree of emission limitation.'' \32\ ``[W]here . . . the statute's
language is plain,'' courts explain, our `` `sole function . . . is to
enforce it according to its terms.' '' \33\
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\32\ Id.
\33\ Air Line Pilots Ass'n v. Chao, 167 F.3d 602, 791 (D.C. Cir.
2018) (quoting United States v. Ron Pair Enterprises, 489 U.S. 235,
241 (1989)).
---------------------------------------------------------------------------
The EPA begins with the meaning of ``application,'' as it appears
in CAA section 111(a)(1). In the absence of a statutory definition, the
term must be construed in accordance with its ordinary or natural
meaning.\34\ Here the ordinary meaning of ``application'' refers to the
``act of applying'' or the ``act of putting to use.'' \35\ Accordingly,
a standard of performance must reflect the degree of emission
limitation that can be achieved by putting the BSER into use.
Furthermore, the ordinary and natural use of the term ``application,''
which is derived from the verb ``to apply,'' requires both a direct
object and an indirect object. In other words, someone must apply
something to something else (e.g., the application of general rules to
particular cases). In the case of CAA section 111, the direct object is
the BSER. CAA section 111(d) also provides that the indirect object is
the ``existing source''--``each State shall submit to the Administrator
a plan which (A) establishes standards of performance for any existing
source'' (emphasis added). The Act further defines an ``existing
source'' as ``any stationary source other than a new source,'' \36\ and
in turn defines a ``stationary source'' as ``any building, structure,
facility, or installation which emits or may emit any air pollutant.''
\37\ Consequently, CAA section 111 unambiguously limits the BSER to
those systems that can be put into operation at a building, structure,
facility, or installation. Such systems include, for example, add-on
controls (e.g., scrubbers) and inherently lower-emitting processes/
practices/designs.
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\34\ See Leocal v. Ashcroft, 543 U.S. 1, 10 (2004).
\35\ Merriam-Webster's Collegiate Dictionary (11th ed. 2003)
(``1: an act of applying: a (1) : an act of putting to use <~ of new
techniques> (2) : a use to which something is put ''). Definitions are also provided from when CAA section
111(a)(1) was last amended, see The Oxford English Dictionary (2d
ed. 1989) (``The action of applying; the thing applied. 1. a. The
action of putting a thing to another, of bringing into material or
effective contact''), and first enacted, see American Heritage
Dictionary of the English Language (2d ed. 1969) (``1. The act of
applying or putting something on. 2. Anything that is applied, such
as a cosmetic or curative agent. 3. The act of putting something to
a special use or purpose.'').
\36\ 42 U.S.C. 7411(a)(6).
\37\ 42 U.S.C. 7411(a)(3).
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Conversely, the plain language of CAA section 111 does not
authorize the EPA to select as the BSER a system that is premised on
application to the source category as a whole or to entities entirely
outside the regulated source category. First, Congress specified that
``standards of performance'' are established ``for new sources within
such category '' \38\ and ``for any existing source.'' \39\ CAA section
111, therefore, does not allow for the establishment of standards for
the source category or for entities not within the source category.
Instead, CAA section 111 standards must be established for individual
sources. Second, because CAA section 111 standards reflect an
``achievable'' ``degree of emission limitation'' through application of
the BSER, an owner or operator must be able to achieve an applicable
standard by applying the BSER to the designated facility. Accordingly,
the BSER--like standards of performance--cannot be premised on a system
of emission reduction that is implementable only through the combined
activities of sources or non-sources. Thus, the EPA is precluded from
basing BSER on strategies like generation shifting and corresponding
emissions offsets because these types of systems cannot be put into use
at the regulated building, structure, facility, or installation.\40\
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\38\ 42 U.S.C. 7411(b)(1)(B) (requiring the Administrator to
establish performance standards ``for new sources within such
category'' rather than for the category itself as a whole) (emphasis
added)
\39\ 42 U.S.C. 7411(d)(1)(A).
\40\ The CPP's BSER was in part designed to consist of
generation-shifting. See, e.g., 80 FR 64,776 (final rule)
(describing `building blocks' 2 and 3 as ``processes of shifting
dispatch from steam generators to existing NGCC units and from both
steam generators and NGCC units to renewable generators.'').
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c. Statutory Structure and Purpose Confirm That a ``System of Emission
Reduction'' Must Be Applied to an Individual Source and That CAA
Section 111 is Intended to Best Design, Build, Equip, Operate, and
Maintain Sources so as To Reduce Emissions
While the plain meaning of CAA section 111 provides that the BSER
must be applied to a building, structure, facility, or installation,
Congress' intent is also manifest in the statutory structure and
purpose. ``Statutory construction,'' the Supreme Court instructs, ``is
a holistic endeavor.'' \41\ The interpretation of a phrase ``is often
clarified by the remainder of the statutory scheme--because the same
terminology is used elsewhere in a context that makes its meaning
clear, or because only one of the permissible meanings produces a
substantive effect that is compatible with the rest of the law.'' \42\
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\41\ Czyzewski v. Jevic Holding Corp., 137 S. Ct. 973, 985
(2017) (citing United Savings Ass'n v. Timbers of Inwood Forest
Associates, 484 U.S. 365, 371 (1988)).
\42\ Utility Air Regulatory Group v. EPA, 573 U.S. 302, 321
(2014).
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(1) The Statutory Structure Limits a ``System of Emission Reduction''
to ``Systems'' That Have a Potential for Application to an Individual
Source
The conclusion that CAA section 111 standards are limited as
described above is confirmed by considering the section's place in the
overall statutory scheme. Congress tied CAA section 111 to the Best
Available Control Technology (``BACT'') provisions in CAA section
165.\43\ Section 165 provides that ``[a]ny major stationary source or
major modification subject to [preconstruction requirements] must
conduct an analysis to ensure the application of [BACT].'' \44\ A
permitting authority must ``conduct a BACT analysis on a case-by-case
basis . . . and must evaluate the amount of emission reductions that
each available emissions-reducing technology or technique would
achieve, as well as the energy, environmental, economic and other costs
. . . .'' \45\ The EPA has long recommended that permitting agencies
conduct this analysis through a top-down assessment of the best
available and feasible control technologies for the emissions subject
to BACT.\46\ ``Based on
[[Page 32525]]
this [technology] assessment, the permitting authority must [then]
establish a numeric emission limitation that reflects the maximum
degree of reduction achievable. . . .'' \47\
---------------------------------------------------------------------------
\43\ 42 U.S.C. 7479(3) (``In no event shall application of `best
available control technology' result in emissions of any pollutants
which will exceed the emissions allowed by any applicable standard
established pursuant to section 7411 or 7412 of this title.'').
\44\ U.S. EPA, DRAFT New Source Review Workshop Manual:
Prevention of Significant Deterioration and Nonattainment Area
Permitting, B. 1 (October 1990) (``NSR Manual''), available at
https://www.epa.gov/sites/production/files/2015-07/documents/1990wman.pdf. Though the EPA never finalized this draft, it
continues to follow the analytical approach to the BACT analysis
contained within the NSR Manual. See also U.S. EPA, PSD and Title V
Permitting Guidance for Greenhouse Gases (March 2011) (``GHG
Permitting Guidance''), available at https://www.epa.gov/sites/production/files/2015-07/documents/ghgguid.pdf.
\45\ GHG Permitting Guidance at 17 (emphasis added).
\46\ See id. at 17-44.
\47\ Id. at 17, 44-46.
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In no event, Congress specified, can application of BACT result in
greater emissions than allowed by ``any applicable standard established
pursuant to section [1]11 or [1]12 . . . .'' \48\ To ensure such an
exceedance does not occur, NSPS serve as the base upon which BACT
determinations are made and are commonly viewed as the BACT ``floor.''
\49\ However, because Congress refers to ``any applicable standard
established pursuant to section [1]11,'' without reference to either
subsection (b) or (d), any applicable existing source standard would
also function as a BACT ``floor.'' \50\
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\48\ 42 U.S.C. 7479(3).
\49\ GHG Permitting Guidance, 25 n.64 (``While this guidance is
being issued at a time when no NSPS have been established for GHGs,
permitting authorities must consider any applicable NSPS as a
controlling floor in determining BACT once any such standards are
final.'').
\50\ Accordingly, certain commenters incorrectly argue that the
scope of CAA section 169 is irrelevant to regulating existing
sources under CAA section 111(d) because only CAA section 111(b)
standards (i.e., NSPS), not CAA section 111(d) existing-source
standards, apply to sources subject to BACT. However, both CAA
section 111(b) and (d) rely on the same definition of ``standard of
performance'' in CAA section 111(a), and the term's statutory
history (that is, its evolution through repeated acts of Congress
from 1970 to 1990) supports the conclusion that Congress intended
for the term to have the same meaning under both programs. Between
the 1970 and 1977 CAA Amendments, ``standards of performance''
applied only to the regulation of new sources under CAA section
111(b); existing sources, on the other hand, were required to meet
``emission standards,'' which was an undefined term. See Public Law
91-604, 84 Stat. at 1683-84. Between the 1977 and 1990 CAA
Amendments, CAA section 111(a)(1) provided three context-specific
definitions: One definition applied to all new stationary sources
regulated under CAA section 111(b) (basing standards on the best
technological system of continuous emission reduction (``TSCER''));
the second applied only to new fossil-fuel-fired sources regulated
under CAA section 111(b) (basing standards on the TSCER and
requiring a percent reduction in emissions); and a third applied to
existing sources regulated under CAA section 111(d) (basing
standards on the best system of continuous emission reduction). See
Public Law 95-95, 91 Stat. at 699-700. In 1990, however, Congress
replaced the three separate definitions with a singular definition
of ``standard of performance'' under CAA section 111(a)(1), to apply
throughout CAA section 111, based on application of the BSER. See
Public Law 101-549, 104 Stat. at 2631. The legislative history of
CAA section 111 demonstrates that Congress knew full well how to
require either that the regulations applying to new and existing
sources would be different in definition and scope (as in both the
1970 and 1977 versions of the Act) or that they would be the same
and demonstrates that in 1990 they plainly chose the latter course.
---------------------------------------------------------------------------
The EPA has consistently taken the position that BACT encompasses
``all `available' control options . . . that have the potential for
practical application to the emissions unit and the regulated pollutant
under evaluation.'' \51\ This is so because BACT reflects a level of
control that the permitting agency ``determines is achievable for such
facility through application of production processes and available
methods, systems, and techniques, including fuel cleaning, clean fuels,
or treatment or innovative fuel combustion techniques for control.''
\52\ Put simply, both the statutory text and the EPA's long-standing
interpretation provide that BACT is limited to control options that can
be applied to the source itself and does not include control options
that go beyond the source.
---------------------------------------------------------------------------
\51\ GHG Permitting Guidance, 24 (emphasis added).
\52\ 42 U.S.C. 7479(3) (emphasis added).
---------------------------------------------------------------------------
Because CAA section 111 operates as a floor to BACT, section 111
cannot be interpreted to offer a broader set of tools than are
available under section 165. Also, because BACT is limited to control
options that are applied to an individual source, so too with section
111. The explicit statutory link of CAA section 111 standards to BACT,
the statutory definition of the latter, the Agency's consistent
position that BACT must apply to and be achievable for a particular
facility, and the text of CAA section 111(b) and 111(d), confirm the
conclusion that the text of 111(a)(1) can only be read to mean that
standards of performance (and the BSER on which they are predicated)
are likewise measures applied to individual facilities.
(2) The Purpose of CAA Section 111 is To Design, Build, Equip, Operate,
and Maintain Individual Sources so as To Reduce Emissions
Congress intended that CAA section 111 would set minimum
requirements \53\ on individual sources to be designed, built,
equipped, operated, and maintained to reduce emissions. This purpose is
evidenced in the history of CAA section 111(a)(1)'s text and
corroborated by legislative history. CAA section 111 was originally
enacted as part of the 1970 CAA Amendments. In that enactment, state
plans under CAA section 111(d) were to establish ``emission standards''
rather than ``standards of performance.'' The EPA's CAA section 111(d)
implementing regulations, issued in 1975, provided that, in the case of
existing sources, the EPA would issue ``emissions guidelines,'' that
these guidelines would ``reflect the degree of emission reduction
achievable through the application of the [BSER] which (taking into
account the cost of such reduction) the Administrator has determined
has been adequately demonstrated for designated facilities,'' and that
state plans establishing standards of performance for existing sources
would be developed in light of these guidelines.\54\ Then in 1977,
Congress replaced the term ``emission standard'' under CAA section
111(d) with the phrase ``standard of performance''--a phrase defined
for all of CAA section 111 in section 111(a)(1). Thus, the history
behind CAA section 111(a)(1) is relevant to understanding EPA's
authority for both sections 111(b) and (d).
---------------------------------------------------------------------------
\53\ In a 1978 BACT guidance document, the EPA explained that
performance standards reflect emission limits ``which can reasonably
be met by all new or modified sources in an industrial category,
even though some individual sources are capable of lower emissions.
Additionally, because of resource limitations in the EPA, revision
of new source standards must lag somewhat behind the evolution of
new or improved technology. Accordingly, new or modified facilities
in some source categories may be capable of achieving lower emission
levels that [sic] NSPS without substantial economic impacts. The
case-by-case BACT approach provides a mechanism for determining and
applying the best technology in each individual situation. Hence,
NSPS and NESHAP are Federal guidelines for BACT determinations and
establish minimum acceptable control requirements for a BACT
determination.'' U.S. EPA, Guidelines for Determining Best Available
Control Technology, 3 (December 1978).
Further, while some commenters suggest that the BSER must
reflect the ``greatest degree of emission control,'' citing to
section 113 of Senate bill 4358 (S. 4358, at 6, 1970 Legis. Hist. at
554-55), Congress imposed no such requirement. See Sierra Club, 657
F.2d at 330 (``we believe it is clear that this language is far
different from the words Congress would have chosen to mandate that
the EPA set standards at the maximum degree of pollution control
technologically achievable.'').
\54\ 40 FR 53346.
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The 1970 enactment of CAA section 111 represents a choice between
two alternative approaches to direct federal regulation of stationary
sources. Under the House bill, the Administrator would have been
authorized to establish ``emission standards'' for new sources of
pollutants that may contribute substantially to endangerment of the
public health or welfare. These standards would have ``require[d] that
new sources of such emissions be designed and equipped to maximize
emission control insofar as technologically and economically
feasible.'' \55\ The House bill did not contain any analogous
provisions for existing sources. Nevertheless, the House bill
contemplated that under CAA section 111, individual sources would be
designed to emit less.
---------------------------------------------------------------------------
\55\ H.R. Conf. Rep. No. 91-1783, 46 (December 17, 1970)
(emphasis added).
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Under the Senate approach, the Administrator would have established
[[Page 32526]]
``standards of performance'' for new sources based ``on the greatest
emission control possible through application of [the] latest available
control technology.'' \56\ This would have ensured ``that new
stationary sources are designed, built, equipped, operated, and
maintained so as to reduce emission[s] to a minimum.'' \57\
Accordingly, such standards would have reflected ``the degree of
emission control which can be achieved through process changes,
operation changes, direct emission control, or other methods.'' \58\ A
separate provision governing emissions of ``selected agents''
authorized the Administrator to develop ``emission standards'' for both
new and existing sources.\59\ However, the Senate ``recognize[d] that
certain old facilities may use equipment and processes which are not
suited to the application of control technology. The [Administrator]
would be authorized therefore to waive the application of standards . .
. .'' \60\
---------------------------------------------------------------------------
\56\ Id. (describing the approach under the Senate amendment).
\57\ S. Rep. No. 91-1196, 15-16 (September 17, 1970) (emphasis
added).
\58\ Id. at 17.
\59\ Id. at 18-19.
\60\ Id. at 19.
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The conference substitute settled on the language largely reflected
in the current wording of CAA section 111(a)(1); the differences
between the 1970 enactment and the current version are not relevant to
this discussion. As explained above, both the Senate and House bills
contemplated only control measures that would lead to better design,
construction, operation, and maintenance of an individual source \61\
and, in the case of existing sources under the Senate bill, the waiver
of standards if certain sources could not apply new control
technologies. Accordingly, recognizing that a ``system of emission
reduction'' is limited to control technologies or techniques that can
be integrated into an individual source's design or operation (i.e.,
add-on controls and lower-emitting processes/practices/designs) is the
only interpretation compatible with the fundamental principle,
reflected in the original competing drafts of the provision, that
sources should be designed, built, equipped, operated, and maintained
to reduce emissions.\62\
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\61\ References to ``other alternatives,'' ``other means,'' or
``other methods'' in the Senate bill and accompanying report are not
evidence that Congress intended to confer boundless discretion. In
fact, these terms must be interpreted in light of the other
specifically listed control techniques. For example, the Senate
bill's reference to ``control technology,'' ``processes,'' and
``operating methods'' are properly read to denote measures that can
be applied to individual sources--and ``other alternatives'' must be
interpreted ejusdem generis: in the same fashion.
\62\ To be sure, the Agency does not contend that a ``system of
emission reduction'' is limited to technological improvements.
Indeed, the CAA Amendments of 1990 make clear that CAA section 111
is not to be limited to ``technological systems.'' See supra n. 51
(discussing amendments to CAA section 111(a)(1)). But that does not
mean CAA section 111 therefore authorizes basing BSER on generation
shifting ``measures,'' such as substitute generation from lower- or
non-polluting power plants, which cannot be applied to individual
sources like add-on controls or inherently lower-emitting processes/
practices/designs.
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d. The CPP Unlawfully Exceeds the Scope of CAA Section 111(a)(1) and
Must Be Repealed
Before the CPP, the EPA had issued only six CAA section 111(d)
rulemakings, in the form of a ``guideline document'' with corresponding
``emission guidelines.'' \63\ Conversely, the EPA has issued around
seventy CAA section 111(b) rulemakings, including several for new
fossil-fuel-fired steam-generating units.\64\ Every one of those
rulemakings applied technologies, techniques, processes, practices, or
design modifications directly to individual sources.
---------------------------------------------------------------------------
\63\ (See 1) Phosphate Fertilizer Plants, Final Guideline
Document Availability, 42 FR 12022 (March. 1, 1977) [Final Guideline
Document: Control of Fluoride Emissions from Existing Phosphate
Fertilizer Plants, March 1977, Doc. No. EPA-450/2-77-005]; 2)
Emission Guideline for Sulfuric Acid Mist, 42 FR 55796 (October 18,
1977); 3) Kraft Pulp Mills; Final Guideline Document; Availability,
44 FR 29828 (May 22, 1979) [Kraft Pulping, ``Control of Emissions
from Existing Mills,'' March 1979, Doc. No. EPA-450/2-78-003b]; 4)
Primary Aluminum Plants; Availability of Final Guideline Document,
45 FR 26294 (Apr. 17, 1980) [Primary Aluminum: Guidelines for
Control of Fluoride Emissions from Existing Primary Aluminum Plants,
December 1979, Doc. No. EPA-450/2-78-049b]; 5) Standards of
Performance for New Stationary Sources and Guidelines for Control of
Existing Sources: Municipal Solid Waste Landfills, 61 FR 9905 (March
12, 1996); and 6) Standards of Performance for New and Existing
Stationary Sources: Electric Utility Steam Generating Units, 70 FR
28606 (May 18, 2005) (hereafter, the Clean Air Mercury Rule or CAMR)
(vacated in New Jersey v. EPA, 517 F.3d 574 (D.C. Cir. 2007)
(reviewing an action that sought to shift regulation of certain
emissions from power plants from the CAA section 112 hazardous air
pollutants regime to the section 111 standards regime and holding
that the EPA failed to comply with the delisting requirements of
section 112(c)(9) and thus vacating the corresponding section 111
standards for electric utility steam generating units). This list of
six CAA section 111(d) rulemakings does not include any guideline
documents mandated by and carried out in compliance with CAA section
129 (governing solid waste incinerator units).
\64\ See generally 40 CFR part 60, subparts D-TTTT. In fact,
steam-generating units were among the first sources regulated under
section 111(b). See 36 FR 24876 (December 23, 1971) (promulgating
standards for steam generators, portland cement plants,
incinerators, nitric acid plants, and sulfuric acid plants).
---------------------------------------------------------------------------
In the CPP, the EPA determined that the BSER for reducing
CO2 emissions from existing fossil fuel-fired power plants
was the combination of three ``building blocks'':
1. Improving heat rate at individual affected coal-fired steam
generating units;
2. Substituting increased generation from lower-emitting existing
natural gas combined cycle units for decreased generation from higher-
emitting affected steam generating units; and
3. Substituting increased generation from new zero-emitting
renewable energy generating capacity for decreased generation from
affected fossil fuel-fired generating units.
This was the first time the EPA interpreted the BSER to authorize
measures wholly outside a particular source.\65\ The EPA reached this
determination by interpreting the statutory term ``application'' as if
it instead read ``implementation'' (without pointing to any legal basis
for equating those terms), and interpreting the phrase ``system of
emission reduction'' broadly as ``a set of measures that work together
to reduce emissions and that are implementable by the sources
themselves.'' \66\ ``As a practical matter,'' the Agency continued,
``the `source' includes the `owner or operator' of any building,
structure, facility, or installation for which a standard of
performance is applicable.'' \67\ The EPA then concluded that the
breadth of a dictionary definition of the word ``system'' established
the bounds of its statutory authority, finding that the phrase ``
`system of emission reduction' . . . means a set of measures that
source owners or operators can implement to
[[Page 32527]]
achieve an emission limitation applicable to their existing source.''
\68\
---------------------------------------------------------------------------
\65\ CAMR, which relied in part on a cap-and-trade mechanism,
was still ultimately ``based on control technology available in the
relevant timeframe,'' an approach fundamentally different than the
CPP's second and third ``building blocks,'' which were not based on
systems that could be applied to or at individual sources. Indeed,
the rule explained that the BSER refers to ``the combination of the
cap-and-trade mechanism and the technology needed to achieve the
chosen cap level.'' 70 FR 28620 (emphasis added). Accordingly, the
Agency concluded that it would be ``reasonable to establish a cap on
[the basis of using a particular technology] and require compliance
with that cap at a later point in time when the necessary technology
becomes widely available.'' Id. To the extent that CAMR's BSER
(i.e., the combined control technology and cap-and-trade program) is
premised on application to the source category (as opposed to an
individual source), however, CAMR would be unlawful. Trading as a
compliance mechanism under CAA section 111 is discussed in section
III.F.2.a of this preamble.
\66\ 80 FR 64762 (citing the Oxford Dictionary of English (3rd
ed.) (2010), among others). The EPA reached this interpretation in
part on the assumption that ``the terms `implement' and `apply' are
used interchangeably.'' See Legal Memorandum Accompanying Clean
Power Plan for Certain Issues at 84 n.175.
\67\ 80 FR 64762.
\68\ Id. The EPA acknowledged, nonetheless, that ``regulatory
requirements'' in the CPP would be based ``on measures the affected
EGUs can implement to assure that electricity is generated with
lower emissions'' and that ``do not require reductions in the total
amount of electricity produced.'' Id. at 64778. But the EPA did not
exclude such ``measures'' (i.e., reduced utilization and demand-side
energy efficiency) as being outside the scope of the dictionary
definition of ``system.'' Indeed, the EPA believed they would play
an important compliance role under the CPP. See id. at 64753-657
(discussing reduced utilization and demand-side energy efficiency
measures under rate-based and mass-based state plans). See also n.
83, infra.
---------------------------------------------------------------------------
In reviewing the CPP, the EPA concludes that the interpretation
relied upon in the CPP ignored or misinterpreted critical statutory
elements and rules of statutory construction. After reconsidering the
relevant statutory text, structure, and purpose, the Agency now
recognizes that Congress ``spoke to the precise question'' of the scope
of CAA section 111(a)(1) and clearly precluded the unsupportable
reading of that provision asserted in the CPP. Accordingly, this action
repeals the CPP.\69\
---------------------------------------------------------------------------
\69\ One commenter asserted that, rather than repeal the CPP,
the EPA should retain building block 1. As explained in the Proposed
Repeal, however, while heat rate improvement measures may be
considered in a CAA section 111 standard, ``building block 1, as
analyzed, cannot stand on its own. 80 FR 64758 n. 444; see also id.
at 64658 (discussing severability of the building blocks).'' 82 FR
48039 n.5. Accordingly, today's action repeals the whole of the CPP
and does not retain building block 1 as the BSER. In any case, as
discussed in the ACE proposal, ``building block 1, as constructed in
[the] CPP, does not represent an appropriate BSER, and ACE better
reflects important changes in the formulation and application of the
BSER in accordance with the CAA.'' 83 FR 44756 (discussing the EPA's
change in approach to analyzing heat rate improvement measures). See
section III for the EPA's evaluation of heat rate improvement
measures under ACE.
---------------------------------------------------------------------------
(1) The CPP Is Impermissibly Based on ``Implementation'' Rather Than
``Application'' of the BSER
CAA section 111(a)(1) provides that standards of performance
reflect an emission limitation achievable ``through the application of
the [BSER] . . . .'' In the Legal Memorandum accompanying the CPP, the
Agency stated in a footnote that ``the terms `implement' and `apply'
are used interchangeably.'' \70\ Thus, the Agency decided, ``the system
must be limited to measures that can be implemented--``appl[ied]''--by
the sources themselves . . . .'' \71\ But Congress does not in fact use
these terms interchangeably in the Act, and in CAA section 111(a)(1),
as in other source-focused standard-setting provisions in the Act, used
a term (``application'') meaningfully different than the one CPP read
into that section (``implementation'')--and the term that Congress
actually used is one that reflects the CAA's other source-focused
standard-setting provisions.\72\
---------------------------------------------------------------------------
\70\ Legal Memorandum Accompanying Clean Power Plan for Certain
Issues at 84 n.175.
\71\ 80 FR 64720.
\72\ See, e.g., 42 U.S.C. 7412(d)(2) (describing MACT as
``through application of measures, processes, methods, systems or
techniques including, but not limited to, measures which--(A) reduce
the volume of, or eliminate emissions of, such pollutants through
process changes, substitution of materials or other modifications,
(B) enclose systems or processes to eliminate emissions, (C)
collect, capture or treat such pollutants when released from a
process, stack, storage or fugitive emissions point, (D) are design,
equipment, work practice, or operational standards . . . , or (E)
are a combination of the above;''); id. at 7479(3) (describing BACT
as ``achievable for such facility through application of production
processes and available methods, systems, and techniques, including
fuel cleaning, clean fuels, or treatment or innovative fuel
combustion techniques for control'').
---------------------------------------------------------------------------
The Act is replete with provisions calling for the
``implementation'' of ``a system,'' \73\ ``control measures,'' \74\
``emission reduction measures,'' \75\ and even ``steps, by owners or
operators of stationary sources,'' \76\ but CAA section 111(a)(1) is
not among them. Congress defines ``implementing'' under CAA section
105(a)(1)(A) as ``any activity related to the planning, developing,
establishing, carrying-out, improving, or maintaining of such programs
[for the prevention and control of air pollution or implementation of
national primary and secondary ambient air quality standards].'' \77\
But again, ``applying'' is not included in this list defining
``implementing.'' In the case of the Act's standard-setting provisions,
on the other hand, BACT and maximum achievable control technology
(MACT) requirements--like CAA section 111--are based on ``application
of'' control measures to individual sources.
---------------------------------------------------------------------------
\73\ 42 U.S.C. 7412(r)(7)(H)(vii) (``the Administrator . . .
shall develop and implement a system for providing off-site
consequence analysis information'').
\74\ Id. 7511a(b)(2) (``Such plan provisions shall provide for
the implementation of all reasonably available control measures'').
\75\ Id. 7412(i)(5)(C) (``prior to implementation of emissions
reduction measures'').
\76\ Id. 7410(a)(2)(F) (emphasis added) (``require, as may be
prescribed by the Administrator--(i) the installation, maintenance,
and replacement of equipment, and the implementation of other
necessary steps, by owners or operators of stationary sources'').
\77\ 42 U.S.C. 7405(a)(1)(A).
---------------------------------------------------------------------------
Functionally, the two terms send different signals.
``Implementation'' requires a subject and direct object (I implement
the plan), whereas ``application'' requires a subject, direct object,
and indirect object (I apply the protocol to the subject). That is, an
owner or operator can implement a system (without anything more and
without any particular object of the system being implied), but an
owner/operator must apply a system to another object (i.e., the
source). CAA section 111 illustrates this distinction. Congress
provided, in CAA section 111(d)(1), that state plans must provide ``for
the implementation and enforcement of such standards of performance,''
but that EPA's regulations must also permit a state ``in applying a
standard of performance to any particular source'' to take into
consideration, among other factors, the remaining useful life of the
existing source to which such standard applies. Thus, whereas state
plans more broadly ``implement'' the CAA section 111(d) program, states
``appl[y]'' standards to individual sources. Congress could have
defined a standard of performance as reflecting the ``implementation of
the BSER by the owner or operator of a stationary source,'' but
Congress did not. Simply put, equating the terms ``implement'' and
``apply'' conflicts with the plain language of CAA section 111(a)(1)
and their use throughout the Act; this conflict is compounded by the
conflation of the source with its owner, different concepts that are
separately defined, see CAA section 111(a)(3), (5).
Now take generation shifting, the basis for the second and third
``building blocks'' of the CPP's BSER. The CPP recognized that an owner
or operator of a regulated source can ``shift'' power-producing
operations to a different facility, such as a nuclear power plant,
through bilateral contracts for capacity or by reducing utilization.
But just because generation shifting is ``implementable'' by an owner
or operator (i.e., just because an owner or operator of a given source
can subsidize generation elsewhere that will reduce demand for
generation from that) does not mean that generation shifting can be
``applied'' to the source.\78\ And indeed, the CPP shifted generation
from one regulated source category to another and from both those
regulated source categories together to other forms of electricity
generation outside any regulated source category. Because the CPP is
premised on ``implementation of the BSER by a source's owner or
operator'' and not ``application of the [BSER]'' to an individual
source, the rule contravenes the plain language of CAA section
111(a)(1) and must be repealed.
---------------------------------------------------------------------------
\78\ A contract, for example, is neither a ``system'' nor
``applied to'' a source.
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[[Page 32528]]
(2) Dictionary Definitions Cannot Confer an ``Infinitude'' of
Possibilities
Although the word ``system'' is not defined in the CAA, ``[t]he
meaning--or ambiguity--of certain words or phrases may only become
evident when placed in context.'' \79\ Thus, the issue is not whether
the dictionary provides a broad definition of the word ``system,'' but
what are the permissible bounds of the legal meaning of the word
``system.'' The precise question in this case is whether the word
``system'' as used in CAA section 111 encompasses any ``set of
measures'' \80\ to reduce emissions, or whether it is limited to lower-
emitting processes, practices, designs, and add-on controls that are
applied at the level of the individual facility.
---------------------------------------------------------------------------
\79\ King v. Burwell, 135 S. Ct. 2480, 2489 (2015) (quoting FDA
v. Brown & Williamson Corp., 529 U.S. 120, 132 (2000)).
\80\ 80 FR 64762.
---------------------------------------------------------------------------
``System,'' as used in CAA section 111, cannot be read to encompass
any ``set of measures'' that would--through some chain of causation--
lead to a reduction in emissions. As an initial matter, Congress did
not use the phrase ``set of measures'' in CAA section 111. On its own,
this phrase could create unbounded discretion in the Agency. Moreover,
even when the term ``measures'' is used elsewhere in the Act, it is
intended to be limited. For example, CAA section 112 emission standards
are derived ``through application of measures, processes, methods,
systems or techniques.'' ``Measures,'' are further defined to include
measures which:
Reduce the volume of, or eliminate emissions of, such
pollutants through process changes, substitution of materials or other
modifications,
enclose systems or processes to eliminate emissions,
collect, capture or treat such pollutants when released
from a process, stack, storage or fugitive emissions point,
are design, equipment, work practice, or operational
standards (including requirements for operator training or
certification) as provided in subsection (h) of CAA section 111, or
are a combination of the above.\81\
---------------------------------------------------------------------------
\81\ 42 U.S.C. 7412(d)(2).
---------------------------------------------------------------------------
``Measures,'' as Congress provides, are limited to control measures
that can be integrated into an individual source's design or operation.
``Measures'' do not include shifting production away from the regulated
source. The CPP read ``system'' in CAA section 111(a)(1) to mean any
``set of measures,'' relying on the dictionary, and then determined
that there was no limitation on those ``set of measures'' so long as
they were measures that could be implemented through obligations placed
on the owner or operator of a source.\82\ At both steps, the CPP relied
on an absence of an express textual commandment forbidding these open-
ended interpretations. That methodology is untenable.
---------------------------------------------------------------------------
\82\ The CPP identified purported limitations to the underlying
legal interpretation (e.g., ``system'' does not extend to measures
that directly target consumer behavior), see 80 FR 64776-779, but
those purported limitations still led to an interpretation that far
exceeded the bounds of the authority actually conferred by Congress
on the EPA.
---------------------------------------------------------------------------
Construing ``system'' to offer such an ``infinitude'' \83\ of
possibilities would have significant implications. The fact is, fossil
fuel-fired EGUs operate within an interconnected ``system.'' Thus, any
action that would affect electricity rates will have generation-
shifting and potentially emission-reduction consequences. By the very
nature of the interconnected grid, EPA's authority to determine the
BSER under CAA section 111 is, under the Agency's prior interpretation,
stretched to every aspect of the entire power sector. This cannot have
been the intent of the Congress that enacted CAA section 111.
---------------------------------------------------------------------------
\83\ See Cal. Indep. Sys. Operator Corp. v. FERC, 372 F.3d 395,
401 (D.C. Cir. 2004) (``Cal ISO'').
---------------------------------------------------------------------------
The D.C. Circuit has previously disapproved of a federal agency's
expansive reading of its authority in analogous circumstances. In Cal
ISO, the D.C. Circuit vacated the Federal Energy Regulatory
Commission's (``FERC'') attempt to reform a utility's governing
structure on the theory that FERC's statutory authority over
``practice[s] . . . affecting [a] rate'' gave FERC ``authority to
regulate anything done by or connected with a regulated utility, as any
act or aspect of such an entity's corporate existence could affect, in
some sense, the rates.'' \84\
---------------------------------------------------------------------------
\84\ Id.
---------------------------------------------------------------------------
Upholding FERC's interpretation of ``practice'' to include
replacing the governing board of California's Independent System
Operator Corporation, the Court warned, could authorize FERC to
``dictate the choice of CEO, COO, and the method of contracting for
services, labor, office space, or whatever one might imagine . . . .''
\85\ But where ``the text and reasonable inferences from it give a
clear answer . . . that . . . is `the end of the matter.' '' \86\ There
is no need, therefore, to consider ``such parade of horribles.'' \87\
---------------------------------------------------------------------------
\85\ Id. at 403.
\86\ Id. at 401 (citing Brown v. Gardiner, 513 U.S. 115, 120
(1994)) (emphasis in original).
\87\ Id. at 403.
---------------------------------------------------------------------------
The Court explained that, ``no matter how important the principle
of ISO independence is to the Commission, `[the FERC Order] is merely a
regulation,' and cannot be the basis to override the limitations of
`statutes enacted by both houses of Congress and signed into law by the
president.'' \88\ The court reasoned that both ``the history of the
application of this and similar statutes and by the implications of
FERC's amorphous defining of the term'' firmly barred FERC's attempt to
stretch its authority.\89\ On this point, Congress's intent is
``crystal clear''--FERC had no authority to ``reform and regulate the
governing body of a public utility under the theory that corporate
governance constitutes a `practice' for ratemaking authority
purposes.'' \90\
---------------------------------------------------------------------------
\88\ Id. at 404.
\89\ Id. at 402.
\90\ Id.
---------------------------------------------------------------------------
The EPA's prior interpretation underlying the CPP is untenable for
the same reasons. The EPA began, like FERC, with an ordinary statutory
term (``system'') and then read into it maximally broad authority to
shift generation away from coal-fired and gas-fired power plants to
other electricity producers on the basis that generation shifting would
cause those regulated sources to be displaced and therefore not be a
source of emissions. But for nearly 45 years prior to the CPP, this
Agency had never understood CAA section 111 to confer upon it the
implicit power to restructure the utility industry through generation-
shifting measures. Indeed, the EPA has issued many rules under CAA
section 111 (both the limited set of existing-source rules under CAA
section 111(d) and the much larger set of new-source rules under CAA
section 111(b)). In all those rules, the EPA determined that the BSER
consisted of add-on controls or lower-emitting processes/practices/
designs that can be applied to individual sources.\91\
---------------------------------------------------------------------------
\91\ See supra n. 66 (discussing CAMR).
---------------------------------------------------------------------------
The CPP deviated from this settled understanding of CAA section
111. By embracing an expansive dictionary definition of ``system,''
\92\ the EPA ignored that the text and structure of the Act expressly
limited the scope of the term ``system'' in a way that foreclosed the
CPP's expansive definition. The Agency concluded that actions that
would cause generation to shift from higher-emitting to lower- or non-
[[Page 32529]]
emitting power generators represent a means of reducing CO2
emissions from existing fossil fuel-fired electric generating units--
and thus constituted a ``system'' within the meaning of CAA section
111. Taken to its logical end, however, any action affecting a
generator's operating costs could impact its order of dispatch and lead
to generation shifting. This could include, for example, minimum wage
requirements or production caps. It is axiomatic that ``Congress . . .
does not alter the fundamental details of a regulatory scheme in vague
terms or ancillary provisions--it does not, one might say, hide
elephants in mouseholes.'' \93\ Because Congress clearly did not
authorize CAA section 111 standards to be based on any ``set of
measures,'' the EPA need not address the potential consequences of
deviating from our historical practice under CAA section 111 when
determining whether the CPP's interpretation was a permissible reading
of the statute. Like the D.C. Circuit in Cal ISO, the EPA concludes
that the text and reasonable inferences from it give a clear answer:
``system'' does not embody any conceivable ``set of measures'' that
might lead to a reduction in emissions, but is limited to measures that
can be applied to and at the level of the individual source
---------------------------------------------------------------------------
\92\ 80 FR at 64720 (defined by the Oxford Dictionary of English
as ``a set of things or parts forming a complex whole; a set of
principles or procedures according to which something is done; an
organized scheme or method; and a group of interacting,
interrelated, or independent elements'').
\93\ Whitman v. American Trucking, 531 US 457, 466 (2001). See
also Letter from Neil Chatterjee, Chairman, Fed. Energy Reg. Comm'n,
to Andrew Wheeler, Administrator, EPA at 5 (Oct. 31, 2018) (Docket
ID# EPA-HQ-OAR-2017-0355-24053) (``The Supreme Court has explained
several times that Congress `does not alter the fundamental details
of a regulatory scheme in vague terms or ancillary provisions--it
does not, one might say, hide elephants in mouseholes.' The
challenges posed by global climate change present `question[s] of
deep `economic and political significance' that [are] central to
[the] statutory scheme[s]' administered by both the Agency and the
Commission.'') (internal citation omitted).
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(3) Basing BSER on Generation Shifting Is Not Authorized by Congress
On the question of whether basing BSER on generation shifting is
precluded by the statute, the major question doctrine instructs that an
agency may issue a major rule only if Congress has clearly authorized
the agency to do so. As the Supreme Court has stated, ``We expect
Congress to speak clearly if it wishes to assign to an agency decisions
of vast `economic and political significance.' '' \94\ Although the
Court has not articulated a bright-line test, its cases indicate that a
number of factors are relevant in distinguishing major rules from
ordinary rules: ``the amount of money involved for regulated and
affected parties, the overall impact on the economy, the number of
people affected, and the degree of congressional and public attention
to the issue.'' \95\
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\94\ Utility Air Regulatory Group v. EPA, 573 U.S. 302, 324
(2014) (quoting Brown & Williamson, 529 U.S. at 159).
\95\ U.S. Telecom Ass'n v. FCC, 855 F.3d 381, 422-23 (D.C. Cir.
2017) (internal citations omitted).
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While the EPA believes that today's action is based on the only
permissible reading of the statute and would reach that conclusion even
without consideration of the major question doctrine, the EPA believes
that that doctrine should apply here and that its application confirms
the unambiguously expressed intent of CAA section 111. The CPP is a
major rule. At the time the CPP was promulgated, its generation-
shifting scheme was projected to have billions of dollars of impact on
regulated parties and the economy, would have affected every
electricity customer (i.e., all Americans), was subject to litigation
involving almost every State in the Union, and, as discussed in the
following section, would have disturbed the state-federal and intra-
federal jurisdictional scheme. Building blocks 2 and 3 are far afield
from the core activity of CAA section 111--indeed, no section 111 rule
of the scores issued has ever been based on generation shifting since
the enactment of CAA section 111 in 1970. Because the CPP is a major
rule, the interpretative question raised in CAA section 111(a)(1)
(i.e., whether a ``system of emission reduction'' can consist of
generation-shifting measures) must be supported by a clear-statement
from Congress.\96\ As explained above, however, it is not--indeed,
Congress has directly spoken to this precise question and precluded the
interpretation of CAA section 111 advanced by the EPA in the CPP.
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\96\ The EPA acknowledges that for the reasons noted above, its
position on this major rule issue has evolved since the EPA
addressed it in the CPP, 80 FR 64,783. See FCC v. Fox Television
Stations, Inc., 556 U.S. 502 (2009).
---------------------------------------------------------------------------
Further evidence comes from the notable absence of a valid limiting
principle to basing a CAA section 111 rule on generation shifting. In
the CPP, the EPA explained that the Agency ``has generally taken the
approach of basing regulatory requirements on controls and measures
designed to reduce air pollutants from the production process without
limiting the aggregate amount of production.'' \97\ But by shifting
focus to the entire grid (which includes regulated sources and non-
sources), the Agency could empower itself to order the wholesale
restructuring of any industrial sector (whether or not it has authority
to even regulate all the actors within that sector--so long, in keeping
with the interpretation underlying the CPP, as it can place obligations
on the owners and operators over whom it does have authority to carry
out a ``system'' that goes beyond the EPA's actual direct reach).
Appealing to such factors as ``cost'' and ``feasibility'' \98\ as
putative constraints on EPA's authority, furthermore, does not provide
any assurance--indeed, the D.C. Circuit traditionally ``grant[s] the
[A]gency a great degree of discretion in balancing them.'' \99\ Thus,
it is not reasonable to find in this statutory scheme Congressional
intent to endow the Agency with discretion of this breadth to regulate
a fundamental sector of the economy.
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\97\ 80 FR 64762.
\98\ See Legal Memorandum Accompanying Clean Power Plan for
Certain Issues at 117-20.
\99\ Lignite Energy Council v. EPA, 198 F.3d 930, 933 (D.C. Cir.
1999).
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As a final point, the CPP not only advanced a broad reading of CAA
section 111(a)(1), the rule applied that interpretation to ``the source
category as a whole'' \100\ to cause a reduction in coal-fired
generation.\101\ To do so, the CPP relied on ``emission reduction
approaches that focus on the machine as a whole--that is, the overall
source category--by shifting generation from dirtier to cleaner sources
in addition to emission reduction approaches that focus on improving
the emission rates of individual sources.'' \102\ Consequently, it was
designed as ``an emission guideline for an entire category of existing
sources . . . .'' \103\ However, by acting as a guideline for an entire
category, the CPP ignored the statutory directive to establish
standards for sources and overextended federal authority into matters
traditionally reserved for states: ``administration of integrated
resource planning and . . . utility generation and resource
portfolios.'' \104\
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\100\ 80 FR 64727.
\101\ Id. at 64665.
\102\ 80 FR 64725-726; see also id. at 64726 (noting
``consideration of emission reduction measures at the source-
category level'').
\103\ CPP RTC Chapter 1A, 170-72.
\104\ New York v. FERC, 535 US 1, 24 (2002).
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(4) Basing BSER on Generation Shifting Encroaches on FERC and State
Authorities
The Federal Power Act (FPA) establishes the dichotomy between
federal and state regulation in the electricity sector by drawing ``a
bright line easily ascertained, between state and federal
jurisdiction.'' \105\ The Supreme Court recently observed that, under
the FPA, FERC has ``exclusive jurisdiction over wholesale sales of
electricity in the interstate market'' and
[[Page 32530]]
establishing the associated just and reasonable rates and charges.\106\
However, ``the law places beyond FERC and leaves to the States alone,
the regulation of `any other sale'--most notably, any retail sale--of
electricity.'' \107\ Therefore, under the FPA, Congress limited the
jurisdiction of FERC ``to those matters which are not subject to
regulation by the States,'' including ``over facilities used for the
generation of electric energy.'' \108\ Indeed, ``the States retain
their traditional responsibility in the field of regulating electrical
utilities for determining questions of need, reliability, cost, and
other related state concerns.'' \109\ ``Such responsibilities include
``authority over the need for additional generating capacity [and] the
type of generating facilities to be licensed.'' \110\ Thus, the FPA
``not only establishes an affirmative grant of authority to the federal
government to regulate wholesale sales and transmission of electricity
in interstate commerce, but also draws a line where that exclusive
authority ends and the state's exclusive authority to regulate other
matters . . . begins.'' \111\
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\105\ Fed. Power Comm'n v. S. Cal. Edison Co., 376 U.S. 205, 215
(1964).
\106\ Hughes v. Talen Energy Marketing, LLC, 136 S.Ct. 1288,
1291-92 (2016) (citing 16 U.S.C. 824(b)(1), 824d(a) and 824e(a)).
\107\ Id. at 1292 (quoting FERC v. Electric Power Supply Assn.,
136 S.Ct. 760, 766 (2016) (EPSA) (quoting 824(b)). The States'
reserved authority includes control over in-state ``facilities used
for the generation of electric energy.'' 824(b)(1); see Pacific Gas
& Elec. Co. v. State Energy Resources Conservation and Development
Comm'n, 461 U.S. 190, 205 (1983) (``Need for new power facilities,
their economic feasibility, and rates and services, are areas that
have been characteristically governed by the States.'').
\108\ 16 U.S.C. 824(a), 824(b)(1); see also id. 824o(i)(2)
(``This section does not authorize . . . [FERC] to order the
construction of additional generation or transmission capacity'').
There are other jurisdictional limitations under the FPA. For
example, publicly-owned and many cooperatively owned utilities are
subject to only some elements of the FPA. Id. 824(f), 824(b)(2). And
entities not operating in interstate commerce, i.e., entities in
Alaska, Hawaii, and the Electric Reliability Council of Texas
portion of Texas, are also subject to only limited FERC
jurisdiction.
\109\ Pacific Gas & Elec. Co. v. State Energy Resources
Conservation and Development Comm'n, 461 U.S. 190, 205 (1983).
\110\ Id. at 212.
\111\ Dennis, Jeffrey S., et al., Federal/State Jurisdictional
Split: Implications for Emerging Electricity Technologies, 3
(December 2016), available at https://www.energy.gov/sites/prod/files/2017/01/f34/Federal%20State%20Jurisdictional%20Split-Implications%20for%20Emerging%20Electricity%20Technologies.pdf; see
also 16 U.S.C. 824o(i)(2) (``This section does not authorize . . .
[FERC] to order the construction of additional generation or
transmission capacity'').
---------------------------------------------------------------------------
Courts have observed that regulation of other areas may
incidentally affect areas within these exclusive domains, but there is
no room for direct regulation by States in areas of FERC domain or
vice-versa, and such regulation that would achieve indirectly what
could not be done directly is also prohibited.\112\ Just as ``FERC has
no authority to direct or encourage generation'' \113\ absent clear
authority from Congress, neither does (indeed, a fortiori so much the
less does) the EPA.\114\ The EPA has no more ability to ``do indirectly
what it could not do directly'' than FERC would with respect to matters
that the FPA left to the states. Historically, any traditional
environmental regulation of the power sector may have incidentally
affected these domains without indirectly or directly regulating within
them. For example, an on-site control, such as a scrubber, may affect
rate determinations as it is factored into potentially recovered costs.
The CPP, however, included a BSER that was based largely on measures
and subjects exclusively left to FERC and the states, rather than
inflicting only permissible, incidental effects on those domains.
---------------------------------------------------------------------------
\112\ Hughes, 136 S. Ct. at 1297-98. See also EPSA, 753 F.3d at
221, 224 (``the Federal Power Act unambiguously restricts FERC from
regulating the retail market'' and quoting Altamont Gas Transmission
Co. v. FERC, 92 F.3d 1239, 1248 (D.C. Cir. 1996)) (noting that
``FERC cannot `do indirectly what it could not do directly' '').
\113\ CRS, The Federal Power Act (FPA) and Electricity Markets,
9 (March 10, 2017), available at https://www.everycrsreport.com/files/20170310_R44783_dd3f5c7c0c852b78f3ea62166ac5ebdbd1586e12.pdf.
\114\ See 80 FR 64745 (explaining that ``the BSER also reflects
other CO2 reduction strategies that encourage increases
in generation from lower- or zero-carbon EGUs'') (emphasis added);
cf. 42 U.S.C. 7651(b) (providing that one purpose of Title IV (but
not the CAA overall) is to encourage the ``use of renewable and
clean alternative technologies'').
---------------------------------------------------------------------------
The CPP identified as part of the BSER generation-shifting
measures. Increased renewable generation capacity, building block 3,
falls within a state's authority to determine its generation mix and to
direct the planning and resource decisions of utilities under its
jurisdiction.\115\ Additionally, increased utilization of natural gas
combined cycle (NGCC) plants, building block 2, falls within that state
authority and within FERC's authority to determine just and reasonable
rates by requiring a conclusion that the associated costs of increased
utilization rates are reasonable, and, further ignores these areas of
exclusive regulation by neglecting to consider changes to regional
transmission organization (RTO) and ISO dispatch procedures necessary
to achieve the increased utilization rates. By including generation-
shifting measures within the states' and FERC's purview in the BSER,
rather than relying on traditional controls within the EPA's purview,
the EPA established a rule predicated largely upon actions in the power
sector outside of the scope of the Agency's authority to compel. Some
generation shifting may be an incidental effect of implementing a
properly established BSER (e.g., due to higher operation costs), but
basing the BSER itself on generation shifting improperly encroaches on
FERC and state authorities.
---------------------------------------------------------------------------
\115\ See S.Cal. Edison Co., 71 FERC 61,269 (June 2, 1995); see
also Pacific Gas & Elec. Co. v. State Energy Resources Conservation
and Development Comm'n, 461 U.S. 190, 205, 212 (1983).
---------------------------------------------------------------------------
Further, the actual effect of the CPP as anticipated by the EPA was
that the states would impose standards of performance based on the
EPA's BSER, and sources would largely rely on generation-shifting
measures to comply with those standards. In its analysis of potential
energy impacts associated with the rule, the CPP modeling ``presume[d]
policies that lead to generation shifts and growing use of demand-side
[energy efficiency] and renewable electricity generation out to 2029.''
\116\ In this manner, the CPP could directly shape the generation mix
of a complying state. It is clear from the FPA that Congress intended
the states to have that authority, not the relevant federal agency,
FERC. Given that even FERC would not have such authority, the only
reasonable inference is that Congress did not intend to give the EPA
that authority via CAA section 111.\117\ Federal law ``may not be
interpreted to reach into areas of state sovereignty unless the
language of the federal law compels the intrusion,'' \118\ and, as
discussed above, basing BSER on generation shifting is not authorized
by Congress here. Such an interpretation is also consistent with the
cooperative-federalism framework of the CAA.\119\ While the EPA has
previously asserted that the CPP only provides emissions guidelines,
leaving the states with the flexibility to create their own compliance
measures,\120\ the guidelines are based on actions outside of the EPA's
authority to directly or indirectly compel and the practical effect of
[[Page 32531]]
implementing the guidelines is that many of those actions likely must
be taken.
---------------------------------------------------------------------------
\116\ 80 FR 64927.
\117\ See Solid Waste Agency of Northern Cook County v. U.S.
Army Corps of Engineers, 531 U.S. 159, 172 (2001) (citing Edward J.
DeBartolo Corp. v. Florida Gulf Coast Building & Constr. Trades
Council, 485 U.S. 568, 575 (1988)).
\118\ Am. Bar Ass'n v. FTC, 430 F.3d 457 (D.C. Cir. 2005).
\119\ See, e.g., 42 U.S.C. 7401(b)(3) and (4), 7402(a) and (b),
and 7416.
\120\ 80 FR 64762 (``States will have the flexibility to choose
from a range of plan approaches and measures, including numerous
measures beyond those considered in setting the CO2
emission performance rates'').
---------------------------------------------------------------------------
(5) Commenters' Attempt To Recharacterize the BSER in the CPP as
Applying to Sources By Pointing to ``Reduced Utilization'' Is
Unavailing and Clearly Precluded by the CAA
(a) The CPP Rejected ``Reduced Utilization'' as a ``System'' for
Purposes of CAA Section 111.
Some commenters claim reduced utilization can be ``applied to'' a
source as an ``operational method'' for reducing emissions. In the CPP,
however, the EPA was clear that reduced utilization on its own ``does
not fit within our historical and current interpretation of the BSER.''
\121\ The EPA explained: ``Specifically, reduced generation by itself
is about changing the amount of product produced rather than producing
the same product with a process that has fewer emissions,'' \122\ and
the EPA has historically based pollution control on ``methods that
allow the same amount of production but with a lower-emitting
process.'' \123\ In proposing to repeal the CPP, the EPA noted that,
``[w]hereas some emission reduction measures (such as a scrubber) may
have an incidental impact on a source's production levels, reduced
utilization is directly correlated with a source's output.'' \124\
Accordingly, ``predicating a section 111 standard on a source's non-
performance would inappropriately inject the Agency into an owner/
operator's production decisions.'' \125\ The EPA is finalizing our
proposal that reduced utilization cannot be considered a ``best system
of emission reduction'' under CAA section 111(a)(1) because, as the EPA
said in the CPP, the EPA has never identified reduced utilization as
the BSER and the EPA interprets CAA section 111 to authorize emission
limits based on controls that reduce emissions without restricting
production. In addition, because the CPP was not premised on ``reduced
utilization''--indeed, the EPA expressly renounced that as a basis for
the CPP--commenters' attempt to justify the CPP on that basis is
unavailing.
---------------------------------------------------------------------------
\121\ 80 FR 64780.
\122\ Id.
\123\ 80 FR 64782 n.602.
\124\ 83 FR 44752.
\125\ Id.
---------------------------------------------------------------------------
(b) Standards of Performance Cannot Be Based on Reduced Utilization
Even if the CPP could be reframed as employing reduced utilization,
it would fail to satisfy statutory criteria.
CAA section 302(l) provides that a ``standard of performance''
means ``a requirement of continuous emission reduction, including any
requirement relating to the operation or maintenance of a source to
assure continuous reduction.'' Previously, the Agency has argued that
the definitions in CAA section 111(a)(1) ``are more specific'' and
therefore controlling,\126\ but, to the extent that section 302(l)
applies, that definition is met when a standard ``applies continuously
in that the source is under a continuous obligation to meet its
emission rate . . . .'' \127\
---------------------------------------------------------------------------
\126\ See Brief of Respondent at 129-30, New Jersey v. EPA, No.
05-1097 (consolidated) (D.C. Cir. May 4, 2007).
\127\ 80 FR 64841. See also 70 FR 28617 (``Even if the 302(l)
definition applied to the term `standard of performance' as used in
section 111(d)(1), [the] EPA believes that a cap-and-trade program
meets the definition. . . . That is, there is never a time when
sources may emit without needing allowances to cover those
emissions.'').
---------------------------------------------------------------------------
Here, the Agency concludes that CAA section 302(l) is relevant to
interpreting CAA section 111.\128\ Statutes should be construed ``so as
to avoid rendering superfluous'' any statutory language: ``a statute
should be construed so that effect is given to all its provisions, so
that no part will be inoperative or superfluous, void or insignificant.
. . .'' \129\ Under the CAA, only section 111 requires the
establishment of ``standards of performance.'' Thus, ignoring the
generally applicable definition in CAA section 302(l) in interpreting
CAA section 111 would read it out of the statute. Nor is this a
situation where Congress provided that the provision-specific
definition in CAA section 111 was to supplant the general definition in
CAA section 302(l). First, the opening phrase of CAA section 302
indicates that the section 302 definitions apply ``[w]hen used in this
chapter.'' By contrast, the definitions provisions in some statutes
begins with text that expressly provides that the general statutory
definitions are supplanted by provision-specific definitions. See,
e.g., Clean Water Act (CWA) section 502 (33 U.S.C. 1362) (which begins
``Except as otherwise specifically provided . . . .''). Second, one of
the CAA section 302 definitions expressly states that it is supplanted
by provision-specific definitions.\130\
---------------------------------------------------------------------------
\128\ Indeed, the provisions of CAA section 302 are supplanted
by provision-specific definitions only to the extent that those
specific provisions ``expressly'' do so. See, e.g., Alabama Power v.
Costle, 636 F.2d 323, 370 (D.C. Cir. 1979) (holding that CAA section
169(1) is controlled by the general definition in CAA section 302(j)
with respect to the ``rule requirement'' in CAA section 302(j) that
is not expressly supplanted by CAA section 169(1)).
\129\ Hibbs v. Winn, 542 U.S. 88, 101 (2004). Cf. Brief of
Respondent at 129, New Jersey v. EPA (``[s]pecific terms prevail
over the general in the same or another statute which might
otherwise be controlling.'' (citation and quotation marks omitted)).
\130\ See CAA section 302(j) (which defines ``major stationary
source'' and ``major emitting facility'' and begins ``Except as
otherwise expressly provided, . . . .'').
---------------------------------------------------------------------------
However, the Agency was wrong to conclude that ``a requirement of
continuous emission reduction'' means only that a standard of
performance need apply ``on a continuous basis.'' In fact, Congress
used such phrasing in the preceding definition under CAA section
302(k). The terms ``emission limitation'' and ``emission standard''
mean ``a requirement . . . which limits the quantity, rate, or
concentration of emissions of air pollutants on a continuous basis,
including any requirement relating to the operation or maintenance of a
source to assure continuous emission reduction. . . .'' \131\ Whereas
emission limitations and emission standards apply ``on a continuous
basis, including any requirement . . . to assure continuous emission
reduction,'' standards of performance must impose a ``requirement of
continuous emission reduction.''
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\131\ 42 U.S.C. 7602(k) (emphasis added). See H.R. 6161, Rep.
No. 95-294, 92 (May 12, 1977) (``Without an enforceable emission
limitation which will be complied with at all times, there can be no
assurance that ambient standards will be attained and maintained.
Any emission limitation under the [CAA], therefore must be met on a
constant basis. . . .'') (emphasis added).
---------------------------------------------------------------------------
When Congress made explicit the requirement for ``continuous
emission reduction,'' it was to ``affirm the decisions of four U.S.
courts of appeals cases that the [A]ct requires continuous emission
reductions to be applied.'' \132\ Thus, as scholar David Currie
observed,
[[Page 32532]]
Congress ``intended to forbid reliance on intermittent control
strategies, such as temporary use of low-sulfur fuels or reductions in
plant output . . . .'' \133\ Because standards of performance cannot be
based on intermittent control strategies, basing BSER on reduced
utilization is statutorily precluded for purposes of CAA section 111.
---------------------------------------------------------------------------
\132\ H.R. Conf. Rep. No. 95-564, 514 (Aug. 3, 1977); see also
H.R. No. 95-294, 190 (May 12, 1977) (``To make clear the committee's
intent that intermittent or supplemental control measures are not
appropriate technological systems for new sources (and to prevent
the litigation which has been conducted with respect to use of
intermittent or supplemental systems at existing sources), the
committee adopted language clearly stating that continuous emission
reduction technology would be required to meet the requirements of
this section.''); and id. at 92 (``By defining the terms `emission
limitation,' `emmission [sic] standard,' and `standard of
performance,' the committee has made clear that constant or
continuous means of reducing emissions must be used to meet these
requirements.''). For example, ``The Sixth Circuit has agreed with
the Fifth, upholding the EPA's rejection of a provision that would
have allowed `intermittent' controls when necessary to meet ambient
standards, adding on the basis of a stray remark of the Supreme
Court in Train that `emission standards' were only those limiting
the `composition' of an emission, not restrictions on operation or
on the content of fuels.'' David P. Currie, Federal Air-Quality
Standards and Their Implementation, 365 American Bar Foundation
Research Journal, 376 n.58 (1976).
\133\ David P. Currie, Direct Federal Regulation of Stationary
Sources Under the Clean Air Act, 128 U. Pa. L. Rev. 1389, 1431
(1980) (emphasis added). Professor Curie also suggests that ``the
requirement of continuous controls . . . may even have been implicit
in the original section 111.'' Id.
---------------------------------------------------------------------------
Finally, basing the BSER on reduced utilization contravenes the
plain meaning of a ``standard of performance.'' As the Supreme Court
held most recently in Weyerhaeuser v. FWS, 139 S. Ct. 361 (2018),\134\
and previously in Solid Waste Agency of Northern Cook County, courts
must give statutory terms meaning, even where they are part of a larger
statutorily defined phrase.\135\ In the phrase ``standard of
performance,'' the term ``performance'' is defined as ``[t]he
accomplishment, execution, carrying out, . . . [or] doing of any action
or work,'' \136\ and thus refers to the source's manufacturing or
production of product. Reduced utilization does not involve
improvements to a source's emissions during ``performance;'' instead it
calls for non-performance--the cessation or limitation of manufacturing
or production --of a source. Accordingly, reduced utilization cannot
form the basis of a ``standard of performance'' under CAA section 111.
---------------------------------------------------------------------------
\134\ 139 S.Ct. at 368-69 (rejecting environmental group's
contention that statutory definition of ``critical habitat'' is
complete and does not require independent inquiry into meaning of
the term ``habitat,'' which the statute left undefined).
\135\ 531 U.S. at 172 (requiring that the word ``navigable'' in
the Clean Water Act's statutorily defined term ``navigable waters''
be given ``effect'').
\136\ The Oxford English Dictionary (2d ed. 1989) (1. The
carrying out of a command, duty, purpose, promise, etc.; execution,
discharge, fulfilment. 2. a. The accomplishment, execution, carrying
out, working out of anything ordered or undertaken; the doing of any
action or work; working, action (personal or mechanical'') and
American Heritage Dictionary of the English Language (2d ed. 1969)
(``1. The act of performing, or the state of being performed.''
[perform 1. To begin and carry through to completion]).
---------------------------------------------------------------------------
The definition of ``standard of performance,'' and the scope of the
``best system of emission reduction'' contained within, confers
considerable discretion on the EPA to interpret the statute and make
reasonable policy choices pursuant to Chevron step two as to what is
the best system to reduce emissions of a particular pollutant from a
particular type of source. However, by making clear that the
``application'' of the BSER must be to the source, Congress spoke
directly in Chevron step one terms to the question of whether the BSER
may contain measures other than those that can be put into operation at
a particular source: It may not. The approach to BSER in the CPP is
thus unlawful and the CPP must be repealed.
C. Independence of the Repeal of the Clean Power Plan
Although this action appears in the same document as the ACE rule
and the revisions to the emission guidelines implementing regulations,
the repeal of the CPP is a distinct final agency action that is not
contingent upon the promulgation of ACE or the new implementing
regulations. As explained above, Congress spoke directly to the
question of whether CAA section 111 authorizes the EPA to issue
regulations pursuant to CAA section 111(d) that call for the
establishment of standards of performance based on the types of
measures that comprised the second and third building blocks of the
CPP's BSER permits the Agency's to consider generation-shifting as a
potential system of emission reduction in developing emission
guidelines. The answer to that question is no.
The CPP described itself as a ``significant step forward in
reducing [GHG] emissions in the U.S.'' and relied ``in large part on
already clearly emerging growth in clean energy innovation, development
and deployment . . . .'' 80 FR 64663. Market-based forces have already
led to significant generation shifting in the power sector. However,
the fact that those market forces have had that result does not confer
authority on the EPA beyond what Congress conferred in the CAA.
The EPA does not deny that, if it were validly within the Agency's
authority under the statute, regulations that can only be complied with
through widespread implementation of generation shifting might be a
workable policy for achieving sector-wide carbon-intensity reduction
goals. But what is not legal cannot be workable. The CPP's reliance on
generation shifting as the basis of the BSER is simply not within the
grant of statutory authority to the Agency. The text of CAA section 111
is clear, leaving no interpretive room on which the EPA could seek
deference for the CPP's grid-wide management approach. Accordingly, EPA
is obliged to repeal the CPP to avoid acting unlawfully.
Because the EPA exceeded its statutory authority when it
promulgated the CPP, the EPA's repeal of that rule will remain valid
even if a future reviewing court were to find fault with the separate
and distinct legal interpretations and record-based findings
underpinning the ACE rule (see Section III) or the new implementing
regulations (see Section IV). The EPA today repeals the CPP as a
separate action, distinct from its promulgation of the ACE rule and of
revisions to its regulations implementing section 111(d). The EPA would
repeal the CPP today even if it were not yet prepared to promulgate
these other regulations, or indeed if it knew that those other
regulations would not survive judicial review.
III. The Affordable Clean Energy Rule
A. The Affordable Clean Energy Rule Background
1. Regulatory Background
In December 2017, the EPA published an Advanced Notice of Proposed
Rule Making (ANPRM) to solicit comment on what the Agency should
include in CAA section 111(d) emission guidelines, including soliciting
comment on the respective roles of the states and the EPA; what systems
of emission reduction might be available and appropriate for reducing
GHG emissions from existing coal-fired EGUs; and potential
flexibilities that could be afforded under the NSR program to improve
the implementation of a future rule.\137\ The EPA received more than
270,000 comments on the ANPRM.
---------------------------------------------------------------------------
\137\ See 82 FR 61507 (December 28, 2017).
---------------------------------------------------------------------------
Informed by the ANPRM, the EPA then published the ACE proposal,
which consisted of three distinct actions: (1) Emission guidelines for
GHG emissions from existing coal-fired EGUs, based on application of
HRI measures as the BSER; (2) new emission guideline implementation
regulations; and (3) revisions to the NSR program to facilitate the
implementation of efficiency projects at EGUs.\138\
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\138\ See 83 FR 44746 (August 31, 2018).
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In this final action, the EPA has determined that the BSER for
CO2 emissions from existing coal-fired EGUs is HRI, in the
form of a specific set of technologies and operating and maintenance
practices that can be applied at and to certain existing coal-fired
EGUs, which is consistent with the legal interpretation adopted in the
repeal of the CPP (see above section II). Also, in this action, the EPA
has provided information for state plan development. The state plan
development discussion is consistent with the new implementing
regulations for CAA section 111(d) emission guidelines discussed
separately in section IV of this preamble.
[[Page 32533]]
As noted above, the EPA also proposed revisions to the NSR program
in parallel with the ACE rule and the new implementing regulations. The
EPA is not finalizing NSR revisions at this time; instead, the EPA
intends to take final action on the proposed revisions at a later date
in a separate notification of final action.
2. Public Comment and Hearing on the ACE Proposal
The Administrator signed the ACE proposal on August 21, 2018, and,
on the same day, the EPA made this version available to the public at
https://www.epa.gov/stationary-sources-air-pollution/proposal-affordable-clean-energy-ace-rule. The 60-day public comment period on
the proposal began on August 31, 2018, the day of publication in the
Federal Register. The EPA held a public hearing on October 1, 2018, in
Chicago, Illinois, and extended the public comment period until October
31, 2018, to allow for 30 days of public comment following the public
hearing. The EPA received nearly 500,000 comments on the ACE proposal.
B. Legal Authority To Regulate EGUs
In the CPP, the EPA stated that the Agency's then-concurrent
promulgation of standards of performance under CAA section 111(b)
regulating CO2 emissions from new, modified, and
reconstructed EGUs triggered the need to regulate existing sources
under CAA section 111(d).\139\ In ACE, the EPA is not re-opening any
issues related to this conclusion, but for the convenience of
stakeholders and the public, the EPA summarizes the explanation
provided in the CPP here.
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\139\ See 80 FR 64715.
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CAA section 111(d)(1) requires the Agency to promulgate regulations
under which the states must submit state plans regulating ``any
existing source'' of certain pollutants ``to which a standard of
performance would apply if such existing source were a new source.''
Under CAA section 111(a)(2) and 40 CFR 60.15(a), a ``new source'' is
defined as any stationary source, the construction, modification, or
reconstruction of which is commenced after the publication of proposed
regulations prescribing a standard of performance under CAA section
111(b) applicable to such source. In the CPP, the EPA noted that, at
that time, the Agency was concurrently finalizing a rulemaking under
CAA section 111(b) for CO2 emissions from new sources, which
provided the requisite predicate for applicability of CAA section
111(d).\140\
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\140\ Id.
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The EPA explained in the CAA section 111(b) rule (80 FR 64529) that
``section 111(b)(1)(A) requires the Administrator to establish a list
of source categories to be regulated under section 111. A category of
sources is to be included on the list `if in [the Administrator's]
judgment it causes, or contributes significantly to, air pollution
which may reasonably be anticipated to endanger public health and
welfare.' '' Then, for the source categories listed under CAA section
111(b)(1)(A), the Administrator promulgates, under CAA section
111(b)(1)(B), ``standards of performance for new sources within such
category.'' The EPA further took the position that, because EGUs had
previously been listed, it was unnecessary to make an additional
finding as a prerequisite for regulating CO2. The Agency
expressed the view that, under CAA section 111(b)(1)(A), findings are
category-specific and not pollutant-specific, so a new finding is not
needed with regard to a new pollutant. The Agency further asserted
that, even if it were required to make a pollutant-specific finding,
given the large amount of CO2 emitted from this source
category (the largest single stationary source category of emissions of
CO2 by far) that EGUs would easily meet the standard for
making such a listing. The Agency further took the position that, given
the large amount of emissions from the source category, it was not
necessary in that rule ``for the EPA to decide whether it must identify
a specific threshold for the amount of emissions from a source category
that constitutes a significant contribution.'' \141\
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\141\ See 80 FR 64531.
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That CAA section 111(b) rulemaking remains in effect, although the
EPA has proposed to revise it.\142\ That rule continues to provide the
requisite predicate for applicability of CAA section 111(d).
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\142\ See 83 FR 65424.
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C. Designated Facilities for the Affordable Clean Energy Rule
The EPA is finalizing that a designated facility \143\ subject to
this regulation is any coal-fired electric utility steam generating
unit that: (1) Is not an integrated gasification combined cycle (IGCC)
unit (i.e., utility boilers, but not IGCC units); (2) was in operation
or had commenced construction on or before January 8, 2014; \144\ (3)
serves a generator capable of selling greater than 25 megawatts (MW) to
a utility power distribution system; and (4) has a base load rating
greater than 260 gigajoules per hour (GJ/h) (250 million British
thermal units per hour (MMBtu/h)) heat input of coal fuel (either alone
or in combination with any other fuel). Consistent with the new
implementing regulations, the term ``designated facility'' is used
throughout this preamble to refer to the sources affected by these
emission guidelines.\145\ For this action, consistent with prior CAA
section 111 rulemakings concerning EGUs, the term ``designated
facility'' refers to a single EGU that is affected by these emission
guidelines.
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\143\ The term ``designated facility'' means ``any existing
facility which emits a designated pollutant and which would be
subject to a standard of performance for that pollutant if the
existing facility were an affected facility.'' See 40 CFR 60.21a(b).
\144\ Under CAA section 111, the determination of whether a
source is a new source or an existing source (and thus potentially a
designated facility) is based on the date that the EPA proposes to
establish standards of performance for new sources. January 8, 2014,
is the date the proposed GHG standards of performance for new fossil
fuel-fired EGUs were published in the Federal Register (79 FR 1430).
\145\ The EPA recognizes, however, that the word ``facility'' is
often understood colloquially to refer to a single power plant,
which may have one or more EGUs co-located within the plant's
boundaries.
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The EPA's applicability criteria for ACE differ from those in the
CPP because the EPA's determination of the BSER is only for coal-fired
electric utility steam generating units. In the ACE proposal, the EPA
did not identify a BSER for IGCC units, oil- or natural gas-fired
utility boilers, or fossil fuel-fired stationary combustion turbines
and, thus, such units are not designated facilities for purposes of
this action. In the ACE proposal (and previously in the ANPRM), the EPA
solicited information on the cost and performance of technologies that
may be considered as the BSER for fossil fuel-fired stationary
combustion turbines and other fossil-fuel fired EGUs. The EPA currently
does not have adequate information to determine a BSER for these EGUs
and, if appropriate, the EPA will address GHG emissions from these EGUs
in a future rulemaking.
A coal-fired EGU for purposes of this rulemaking (and consistent
with the definition of such units in the Mercury and Air Toxics
Standards (MATS) (77 FR 9304)) is an electric utility steam generating
unit that burns coal for more than 10.0 percent of the average annual
heat input during the three previous calendar years. Further, for
purposes of this rulemaking, the following EGUs will be excluded from a
state's plan: (1) Those units subject to 40 CFR part 60, subpart TTTT
as a result of commencing
[[Page 32534]]
a qualifying modification or reconstruction; (2) steam generating units
subject to a federally enforceable permit limiting net-electric sales
to one-third or less of their potential electric output or 219,000
megawatt-hour (MWh) or less on an annual basis; (3) a stationary
combustion turbine that meets the definition of a simple cycle
stationary combustion turbine, a combined cycle stationary combustion
turbine, or a combined heat and power combustion turbine; (4) an IGCC
unit; (5) non-fossil-fuel units (i.e., units capable of combusting at
least 50 percent non-fossil fuel) that have historically limited the
use of fossil fuels to 10 percent or less of the annual capacity factor
or are subject to a federally enforceable permit limiting fossil fuel
use to 10 percent or less of the annual capacity factor; (6) units that
serve a generator along with other steam generating unit(s) where the
effective generation capacity (determined based on a prorated output of
the base load rating of each steam generating unit) is 25 MW or less;
(7) a municipal waste combustor unit subject to 40 CFR part 60, subpart
Eb; (8) commercial or industrial solid waste incineration units that
are subject to 40 CFR part 60, subpart CCCC; or (9) a steam generating
unit that fires more than 50-percent non-fossil fuels.
D. Regulated Pollutant
The air pollutant regulated in this final action is GHGs. However,
the standards in this rule are expressed in the form of limits solely
on emissions of CO2, and not the other constituent gases of
the air pollutant GHGs.\146\ The EPA is not establishing a limit on
aggregate GHGs or separate emission limits for other GHGs (such as
methane (CH4) or nitrous oxide (N2O)) as other
GHGs represent significantly less than one percent of total estimated
GHG emissions (as CO2 equivalent) from fossil fuel-fired
electric power generating units.\147\ Notwithstanding the form of the
standard, consistent with other EPA regulations addressing GHGs, the
air pollutant regulated in this rule is GHGs.\148\
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\146\ In the 2009 Endangerment Finding for mobile sources, the
EPA defined the relevant ``air pollution'' as the atmospheric mix of
six long-lived and directly emitted greenhouse gases: Carbon dioxide
(CO2), methane (CH4), nitrous oxide
(N2O), hydrofluorocarbons (HFCs), perfluorocarbons
(PFCs), and sulfur hexafluoride (SF6). See 74 FR 66497.
Additionally, note that the new CAA section 111(d) implementing
regulations at 40 CFR 60.22a(b)(1) do not change the requirement of
the previous implementing regulations, 40 CFR 60.22(b)(1) that
emission guidelines provide information concerning known or
suspected endangerment of public health or welfare caused, or
contributed to, by the designated pollutant. For this emission
guideline, that information is contained in the 2009 Endangerment
Finding.
\147\ EPA Greenhouse Gas Reporting Program; www.epa.gov/ghgreporting/.
\148\ See, e.g., 79 FR 34960.
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E. Determination of the Best System of Emission Reduction
1. Guiding Principles in Determining the BSER
CAA section 111(d)(1) directs the EPA to promulgate regulations
establishing a procedure similar to that under CAA section 110,\149\
under which states submit state plans that establish ``standards of
performance'' for emissions of certain air pollutants from existing
sources which, if they were new sources, would be subject to new source
standards under CAA section 111(b), and that provide for the
implementation and enforcement of those standards of performance.
Because CAA section 111(a)(1) defines ``standard of performance'' for
purposes of all of section 111, and because federal standards for new
sources established under section 111(b) and standards for existing
sources established by a state plan under section 111(d) are both
``standards of performance,'' it is the EPA's responsibility to
determine the BSER for designated facilities for standards developed
under both CAA section 111(b) for new sources and section 111(d) for
existing sources.\150\ In making this determination, the EPA identifies
all ``adequately demonstrated'' ``system[s] of emission reduction'' for
a particular source category and then evaluates those systems to
determine which is the ``best,'' \151\ while ``taking into account''
the factors of ``cost . . . non-air quality health and environmental
impact and energy requirements.'' \152\ Because CAA section 111 does
not set forth the weight that should be assigned to each of these
factors, courts have granted the Agency a great degree of discretion in
balancing them.\153\
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\149\ CAA section 110 governs state implementation plans, or
SIPs, which states develop and submit for EPA approval and which are
used to ensure attainment and maintenance of the National Ambient
Air Quality Standards (NAAQS) for criteria pollutants.
\150\ See also 40 CFR 60.22a. However, while the BSER underlying
both new- and existing-source performance standards is determined by
the EPA, the performance standards for new sources are directly
established by the EPA under section 111(b), whereas states
establish performance standards (applying the BSER) for existing
sources in their jurisdiction in their state plans under section
111(d), and Congress has expressly required that EPA permit states,
in establishing performance standards for existing sources, to take
into account the remaining useful life of the source and other
source-specific factors. See 42 U.S.C. 7411(d)(1).
\151\ The D.C. Circuit recognizes that the EPA's evaluation of
the ``best'' system must also include ``the amount of air pollution
as a relevant factor to be weighed . . . .'' Sierra Club v. Costle,
657 F.2d 298, 326 (D.C. Cir. 1981). Additionally, a system cannot be
``best'' if it does more harm than good due to cross-media
environmental impacts. See Portland Cement, 486 F. 2d at 384; Sierra
Club, 657 F.2d at 331; see also Essex Chemical Corp., 486 F.2d 427,
439 (D.C. Cir. 1973) (remanding standard to consider solid waste
disposal implications of the BSER determination). Nevertheless, CAA
section 111 does not require the ``greatest degree of emission
control'' or ``mandate that the EPA set standards at the maximum
degree of pollution control technologically achievable.'' Sierra
Club, 657 F.2d at 330.
\152\ The EPA may consider energy requirements on both a source-
specific basis and a sector-wide, region-wide or nationwide basis.
Considered on a source-specific basis, ``energy requirements''
entail, for example, the impact, if any, of the system of emission
reduction on the source's own energy needs. As discussed in this
document, a consideration of ``energy requirements'' informs the
EPA's judgment that repowering and refueling coal-fired facilities
to be fueled by natural gas is not appropriate for consideration as
BSER here.
\153\ Lignite Energy, 198 F.3d 930, 933 (D.C. Cir. 1999).
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The CAA limits ``standards of performance'' to systems that can be
applied at and to a stationary source (i.e., as opposed to off-site
measures that are implemented by an owner or operator, such as
subsidizing lower-emitting sources) and that lead to continuous
emission reductions (i.e., are not intermittent control techniques).
Such systems include add-on controls and lower-emitting processes/
practices/designs that can be applied to a designated facility, i.e., a
building, structure, facility, or installation regulated under CAA
section 111.\154\ As discussed in section II of this preamble, this is
the only permissible interpretation of the scope of the EPA's authority
under CAA section 111. But this clear outer bound on the EPA's
authority leaves the Agency considerable room for interpretation and
policy choice within that scope in determining the BSER that has been
adequately demonstrated to address a particular source category's
emission of a given pollutant. Case law under CAA section 111(b)
explains that ``[a]n adequately demonstrated system is one which has
been shown to be reasonably reliable, reasonably efficient, and which
can reasonably be expected to serve the interests of pollution control
without becoming exorbitantly costly in an economic or environmental
way.'' \155\ While some of these cases suggest that ``[t]he
Administrator may make a projection based on existing technology,''
\156\ the D.C. Circuit has also
[[Page 32535]]
noted that ``there is inherent tension'' between considering a
particular control technique as both ``an emerging technology and an
adequately demonstrated technology.'' \157\ Nevertheless, the EPA
appears to ``have authority to hold the industry to a standard of
improved design and operational advances, so long as there is
substantial evidence that such improvements are feasible.'' \158\ The
essential question, therefore, is whether the BSER is ``available.''
\159\
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\154\ See section 111(a)(3) for definition of ``stationary
source.''
\155\ Essex Chemical Corp., 486 F.2d 375, 433-34 (D.C. Cir.
1973).
\156\ Portland Cement Ass'n v. Ruckelshaus, 486 F.2d 375, 391
(D.C. Cir. 1973).
\157\ Sierra Club v. Costle, 657 F.2d 298, 341 n.157 (D.C.
Cir.1981); see also NRDC v. Thomas, 805 F.2d 410, n.30 (D.C. Cir.
1986) (suggesting that ``a standard cannot both require adequately
demonstrated technology and also be technology-forcing'').
\158\ Sierra Club, 657 F.2d at 364. It is not clear whether
these cases would have applied the same technology-forcing
philosophy to the regulation of existing sources, as at least one
case noted that section 111 ``looks toward what may fairly be
projected for the regulated future, rather than the state of the art
at present, since it is addressed to standards for new plants--old
stationary source pollution being controlled through other
regulatory authority.'' Portland Cement, 486 F.2d at 391 (emphasis
added).
\159\ See Portland Cement v. Ruckelshaus, 486 F.2d at 391.
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In considering the availability of different systems of emission
reduction, the ``EPA must examine the effects of technology on the
grand scale,'' because CAA section 111 standards are, after all, ``a
national standard with long-term effects.'' \160\ To that end, the
Agency must ``consider the representativeness for the industry as a
whole of the tested plants on which it relies. . . .'' \161\ A CAA
section 111 standard, therefore, ``cannot be based on a `crystal ball'
inquiry.'' \162\
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\160\ Id. at 330.
\161\ Nat'l Lime Ass'n v. EPA, 627 F.2d 416, 432-33 (D.C. Cir.
1980).
\162\ Essex Chemical Corp., 486 F.2d at 391.
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Whereas the EPA establishes performance standards for new sources
under CAA section 111(b), section 111(d) provides that states are
primarily responsible for regulating existing sources. This bifurcated
approach dovetails with testimony offered during development of the CAA
Amendments of 1970 (which established the section 111 program)--
specifically, Secretary Finch explained that ``existing stationary
sources of air pollution are so numerous and diverse that the problems
they pose can most efficiently be attacked by state and local
agencies.'' \163\ Indeed, Congress eventually made explicit the
requirement that the EPA allow states to take into account the
``remaining useful life'' of an existing source, ``among other
factors,'' when applying a standard of performance to any particular
source.\164\ Accordingly, the Agency's identification of the BSER is
based on what is ``adequately demonstrated'' and broadly achievable for
a source category across the country, while each state--which will be
more familiar with the operational and design characteristics of
actually existing sources within their borders--is responsible for
developing source-specific standards reflecting application of the
BSER.\165\ Indeed, Congress has expressly provided that the EPA must
permit states to take into consideration a source's remaining useful
life, among other factors, when applying a standard of performance to a
particular source.\166\
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\163\ Testimony of Robert Finch, Secretary of Health, Education,
and Welfare (which regulated air pollution prior to the
establishment of the EPA) in support of S. 3466/H.R. 15848, before
the House Subcommittee on Public Health and Welfare, H. Hearing (May
16, 1970), 1970 CAA Legis. Hist. at 1369.
\164\ 42 U.S.C. 7411(d)(1).
\165\ This approach is analogous to the NAAQS program: Where
``[e]ven with air quality standards being set nationally . . . the
steps needed to deal with existing stationary sources would
necessarily vary from one State to another and, within States, from
one area to another . . . .'' Id.
\166\ 42 U.S.C. 7411(d)(1).
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In the ACE proposal, the EPA provided a discussion of the
identified systems of emission reduction and explained why certain
systems were eliminated from consideration at a preliminary state or
were otherwise determined not to be the ``best system.'' The EPA
received public comments that challenged or refuted the Agency's
evaluation of these systems of emission reduction. A discussion of
those reduction measures and a summary of significant public comments
are provided below.
The EPA proposed that ``heat rate improvement'' (HRI, which may
also be referred to as ``efficiency improvement'') is the BSER for
existing coal-fired EGUs. In this action, after consideration of public
comments, the EPA is finalizing its proposed determination that HRI is
the BSER. The basis for the final determination and a summary of
significant public comments received on the proposed determination are
discussed below.
2. Heat Rate Improvement Is the BSER for Existing Coal-Fired EGUs
a. Background and BSER Determination
Heat rate is a measure of efficiency that is commonly used in the
power sector. The heat rate is the amount of energy or fuel heat input
(typically measured in British thermal units, Btu) required to generate
a unit of electricity (typically measured in kilowatt-hours, kWh). The
lower an EGU's heat rate, the more efficiently it converts heat input
to electrical output. As a result, an EGU with a lower heat rate
consumes less fuel per kWh of electricity generated and, as a result,
emits lower amounts of CO2--and other air pollutants--per
kWh generated (as compared to a less efficient unit with a higher heat
rate). Heat rate data from existing coal-fired EGUs indicate that there
is potential for improvement across the source category.
Heat rate improvement measures can be applied--and some measures
have already been applied--to all existing EGUs (supporting the
Agency's determination that HRI measures are the BSER). However, the
U.S. fleet of existing coal-fired EGUs is a diverse group of units with
unique individual characteristics that are spread across the
country.\167\ As a result, heat rates of existing coal-fired EGUs in
the U.S. vary substantially. Thus, even though the variation in heat
rates among EGUs with similar design characteristics, as well as year-
to-year variation in heat rate at individual EGUs, indicate that there
is potential for HRI that can improve CO2 emission
performance across the existing coal-fired EGU fleet, this potential
may vary considerably at the unit level--including because particular
units may not be able to employ certain HRI measures, or may have
already done so. Accordingly, the EPA identified several available
technologies and equipment upgrades, as well as best operating and
maintenance practices, that EGU owners or operators may apply to
improve an individual EGU's heat rate. The EPA referred to these HRI
technologies and techniques as ``candidate technologies'' and solicited
comment on their technical feasibility, applicability, performance, and
cost.
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\167\ For example, the current fleet of existing fossil fuel-
fired EGUs is quite diverse in terms of size, age, fuel type,
operation (e.g., baseload, cycling), boiler type, etc. Moreover,
geography and elevation, unit size, coal type, pollution controls,
cooling system, firing method, and utilization rate are just a few
of the parameters that can impact the overall efficiency and
performance of individual units.
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The EPA received numerous public comments, both supporting and
opposing, the proposed determination that HRI is the BSER. Many
commenters supported the proposed concept of a unit-specific, state-led
evaluation of HRI potential as a means of establishing a unit-specific
standard of performance. The commenters argued that it is not possible
to adopt uniform, nationally applicable standards of performance based
on implementation of particular HRI technologies because each
individual unit is subject to a unique combination of factors that can
affect the unit's heat rate and HRI potential, many of which are
geographically driven and outside the control of a
[[Page 32536]]
source. The EPA agrees with these commenters. As previously mentioned,
the U.S. fleet of existing coal-fired EGUs is diverse in terms of size,
vintage, fuel usage, design, geographic location, etc. The HRI
potential for each unit will be influenced by source-specific factors
such as the EGU's past and projected utilization rate, maintenance
history, and remaining useful life (among other factors). Therefore,
standards of performance must be established from a unit-level
evaluation of the application of the BSER and consideration of other
factors at the unit level. States are in the best position to make
those evaluations and to consider of other unit-specific factors, and
indeed CAA section 111(d)(1) directs EPA to permit states to take such
factors into consideration as they develop plans to establish
performance standards for existing sources within their jurisdiction.
Other commenters opposed the proposed use of unit-specific HRI
plans because the commenters believe that this interpretation is
inconsistent with the legislative history and that this approach does
not enable significant emissions reductions. Some commenters said that
defining BSER in terms of operational efficiency (heat rate) is not
consistent with the understanding reflected in the EPA's historic
practice in all previous CAA section 111(d) rules, where the BSER was
determined based on a specific emission reduction technology. The EPA
disagrees with the contention. The EPA proposed that HRI through the
application of a specific set of emission reduction technologies
(discussed in more detail below) and operational practices is the BSER.
That approach is consistent with the direction given in the statute. It
is also an approach that recognizes the challenges of applying a single
specific emission reduction technology within such a diverse population
of designated facilities.
After consideration of public comment, the EPA affirms its
determination that, as proposed, HRI is the BSER for existing coal-
fired EGUs.
b. The List of Candidate Technologies
While a large number of HRI measures have been identified in a
variety of studies conducted by government agencies and outside
groups,\168\ some of those identified technologies have limited
applicability and many provide only negligible HRI. The EPA stated in
the proposal that it believed that requiring a state in developing its
plan to evaluate the applicability to each of its sources of the entire
list of potential HRI options--including those with limited
applicability and with negligible benefits--would be overly burdensome
to the states. Therefore, the EPA identified and proposed a list of the
``most impactful'' HRI technologies, equipment upgrades, and best
operating and maintenance practices that form the list of ``candidate
technologies'' constituting the BSER. The candidate technologies of the
BSER are listed in Table 1 below. Those technologies, equipment
upgrades, and best operating and maintenance practices were deemed to
be ``most impactful'' because they can be applied broadly and are
expected to provide significant HRI without limitations due to
geography, fuel type, etc. The EPA solicited comment on each of the
proposed candidate technologies and on whether any additional
technologies should be added to the list, and on whether there is
additional information that the EPA should be aware of and consider in
determining the BSER and establishing the candidate technologies for
HRI measures.
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\168\ See Table 3 in ANPRM, 82 FR 61515.
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The EPA received numerous public comments on the list of candidate
technologies. Some commenters stated that there are additional
available HRI technologies that should be added to the list of
candidate technologies, while many other commenters agreed that the
proposed list of ``candidate technologies'' is reasonable and should be
considered the core group for states to evaluate in establishing
standards of performance. Commenters agreed that the proposed list of
``candidate technologies'' focuses the states' standard-setting process
on those HRI measures with the greatest ability to impact
CO2 emissions. Commenters further stated that the EPA's
proposed candidate technology list will limit the burden on states by
eliminating the need to consider measures that would almost certainly
be rejected due to negligible emission reduction benefits,
disproportionate costs, or availability. However, commenters also noted
that there may be additional HRI opportunities available to a
significant number of designated facilities and that states should not
be required to limit their evaluations to just the ``candidate
technologies'' in establishing unit-specific standards of performance.
Some commenters suggested that the EPA establish a process whereby HRI
solutions can be added to the list of ``candidate technologies.''
Commenters also stated that some of the equipment upgrades and
operating practices proposed as candidate technologies have the
potential to improve an EGU's net heat rate by reducing auxiliary load
but would have no impact on the unit's gross heat rate.\169\ Comments
regarding gross versus net heat rate, and gross- versus net-based
standards of performance, are discussed in more detail below in section
III.F.1.c of this preamble.
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\169\ The gross heat rate is the fuel heat input required to
generate a unit of electricity (typically presented in Btu/kWh-
gross). The net heat rate is the fuel heat input required to
generate a unit of electricity minus the electricity that is used to
power facility auxiliary equipment (typically presented in Btu/kWh-
net).
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The EPA considered the public comments on the BSER technologies and
believes that the proposed list still represents the most broadly
applicable and impactful collection of HRI measures. Therefore, the EPA
is, in this action, finalizing the proposed technologies, equipment
upgrades, and best operating and maintenance practices provided in
Table 1 of the proposal \170\ as the final list of ``candidate
technologies'' whose applicability to each designated facility within
their boundaries states must evaluate in establishing a standard of
performance for that source in their state plans under CAA section
111(d).
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\170\ See 83 FR 44757.
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The technologies and operating and maintenance practices listed and
described below are generally available and appropriate for all types
of EGUs. However, some existing EGUs will have already implemented some
of the listed HRI technologies, equipment upgrades, and operating and
maintenances practices. There will also be unit-specific physical or
cost considerations that will limit or prevent full implementation of
the listed HRI technologies and equipment upgrades. States will
consider these and other factors when establishing unit-level standards
of performance. The final list of ``candidate technologies''--with the
range of expected percent HRI--is provided below in Table 1.
[[Page 32537]]
Table 1--Summary of Most Impactful HRI Measures and Range of Their HRI Potential (%) by EGU Size
--------------------------------------------------------------------------------------------------------------------------------------------------------
<200 MW 200-500 MW >500 MW
HRI Measure -----------------------------------------------------------------------------------------------
Min Max Min Max Min Max
--------------------------------------------------------------------------------------------------------------------------------------------------------
Neural Network/Intelligent Sootblowers.................. 0.5 1.4 0.3 1.0 0.3 0.9
Boiler Feed Pumps....................................... 0.2 0.5 0.2 0.5 0.2 0.5
Air Heater & Duct Leakage Control....................... 0.1 0.4 0.1 0.4 0.1 0.4
Variable Frequency Drives............................... 0.2 0.9 0.2 1.0 0.2 1.0
Blade Path Upgrade (Steam Turbine)...................... 0.9 2.7 1.0 2.9 1.0 2.9
Redesign/Replace Economizer............................. 0.5 0.9 0.5 1.0 0.5 1.0
-----------------------------------------------------------------------------------------------
Improved Operating and Maintenance (O&M) Practices...... Can range from 0 to >2.0% depending on the unit's historical O&M practices.
--------------------------------------------------------------------------------------------------------------------------------------------------------
Two of the technologies shown in Table 1--``Blade Path Upgrade
(Steam Turbine)'' and ``Redesign/Replace Economizer''--are candidate
technologies that are expected to offer some of the largest
improvements in unit-level heat rate. However, based on public comments
from the ANPRM and the ACE proposal, those also are HRI technologies
that have the most potential to trigger NSR requirements. Industrial
stakeholders and commenters have indicated, if such HRI trigger NSR,
the resulting requirements for analysis, permitting, and capital
investments will greatly increase the cost of implementing those HRI
technologies and, in the absence of NSR reforms, states will be more
likely to determine that those technologies are not cost-effective when
analyzing ``other factors'' in determining a standard of performance
for an individual facility.
For the ACE proposal, the EPA reflected this in assumptions made in
the power sector modeling, using the Integrated Planning Model (IPM),
to assess potential costs and benefits of the proposed rule. In that
modeling, the EPA assumed two different levels of potential HRI (in
percentage terms)--a lower expected HRI without NSR reform and a higher
expected HRI with NSR reform.\171\
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\171\ See 80 FR 44783.
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As mentioned earlier in this preamble, the EPA is not taking final
action on the proposed NSR reforms in this final rulemaking action; the
EPA intends to take final action on that proposal in a separate final
action at a later date. Without finalization of NSR reforms, the EPA
anticipates that states in some instances may determine, when
considering other factors, that the candidate technologies, ``Blade
Path Upgrade (Steam Turbine)'' and ``Redesign/Replace Economizer,'' are
less appropriate for application to a particular source or sources than
the EPA anticipated would be when it proposed the ACE Rule.
Nevertheless, the EPA is retaining these two candidate technologies as
part of the final BSER, because it still expects these technologies to
be generally applicable across the fleet of existing EGUs, and because
the costs of the technologies themselves are generally economical and
reasonable.
c. Level of Stringency Associated With the BSER
As discussed in section III.B above, the EPA has the authority and
responsibility to determine the BSER. CAA section 111(d)(1), meanwhile,
clearly assigns states the role of developing a plan that establishes
standards of performance for designated facilities (with EPA's
authority to promulgate a federal plan serving as a backstop in the
event that a state fails to develop a satisfactory plan \172\). Based
on these statutory divisions of roles and responsibilities, the EPA
proposed to determine the BSER as HRI achievable through implementation
of certain technologies, equipment upgrades, and improved O&M
practices. The EPA also declined to propose a standard of performance
that presumptively reflects application of the BSER because the
establishment of standards of performance for existing sources is the
states' role.\173\ While declining to provide a presumptive standard,
the EPA also proposed to provide information on the degree of emission
limitation achievable through application of the BSER by providing a
range of reductions and costs associated with each of the candidate
technologies identified as part of the BSER.\174\
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\172\ See section 111(d)(2).
\173\ See 83 FR 44764.
\174\ See 83 FR 44757, Table 1.
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The EPA received numerous comments from states and industry
requesting that the EPA provide a presumptive standard, or at minimum,
additional guidance and clarity on how states could derive a standard
of performance that meets the requirements of this regulation.
Additionally, several commenters contended that under CAA section
111(a)(1), the EPA is legally obligated to identify ``the degree of
emission limitation achievable through the application of the [BSER]''
(i.e., a level of stringency) because such degree of emission
limitation is inextricably linked with the determination of the BSER,
which is the EPA's statutory role and responsibility. Upon
consideration of these comments, especially the widespread request for
more guidance from the EPA on developing appropriate standards of
performance, the EPA agrees that it has a responsibility under the CAA
to identify the degree of emission reduction that it determines to be
achievable through the application of the BSER.
While the CAA provides that the responsibility to establish
standards of performance is a state's responsibility, the EPA is
identifying the degree of emission limitation achievable through the
application of the BSER (i.e., the level of stringency) associated with
the candidate technologies. By providing the level of emissions
reductions achievable using the candidate technologies the EPA is
fulfilling its responsibility as part of the BSER determination. In
this instance, the EPA has identified the degree of emission limitation
achievable through application of the BSER by providing ranges of
expected reductions associated with each of the technologies. These
ranges are provided in Table 1, clearly presenting the percentage
improvement ranges that can be expected when each candidate technology
comprising the BSER is applied to a designated facility. Defining the
ranges of HRI as the degree of emission limitation achievable through
application of the BSER is consistent with the EPA's position at
proposal, where EPA noted that ``while the HRI potential range is
provided as guidance for the states, the actual HRI performance for
each of the candidate technologies will be unit-specific and
[[Page 32538]]
will depend upon a range of unit-specific factors. The states will use
the information provided by the EPA as guidance but will be expected to
conduct unit-specific evaluations of HRI potential, technical
feasibility, and applicability for each of the BSER candidate
technologies.'' \175\ For purposes of the final ACE rule, states will
utilize the ranges of HRI the EPA has provided in developing standards
of performance but may ultimately establish standards of performance
for one or more existing sources within their jurisdiction that reflect
a value of HRI that falls outside of these ranges. See section
III.F.1.a of this preamble.
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\175\ See 83 FR 44763.
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It is reasonable for the EPA to express the ``degree of emission
limitation achievable through application of the BSER'' as a set of
ranges of values, rather than a single number, that reflects
application of the candidate technologies as a whole. This approach is
reasonable in light of the nature of what the EPA has identified as the
adequately demonstrated BSER (as well as of the structure of section
111 in general and the interplay between section 111(a)(1) and section
111(d) in particular): A suite of candidate technologies that the EPA
anticipates will be generally applicable to EGUs at the fleet-wide
level but not all of which may be applicable or warranted at the level
of a particular facility due to source-specific factors such as the
site-specific operational and maintenance history, the design and
configuration, the expected operating plans, etc. Because of the
importance for applicability of the BSER of these source-specific
factors, and because the application and installation of the candidate
technologies will result in varying degrees of reductions based on
application of each of the BSER technologies into the existing
infrastructure of the EGU, the EPA has provided ranges of HRI
associated with each technology. This accounts for some of the
variation that is expected among the designated facilities (see section
III.F.1.a.(1) of this preamble for discussion of variable emission
performance at and between designated facilities). While these ranges
represent the degree of emission reduction achievable through
application of the BSER, a particular designated facility may have the
potential for more or less HRI as a result of the application of the
candidate technology based on source-specific characteristics. As
further discussed in section III.F. of this preamble, the level of
stringency associated with each candidate technology is to be used by
states in the process of establishing a standard of performance, and in
this process, states may also consider source-specific factors such as
variability that may result in a different level of stringency.\176\
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\176\ As described later in the preamble in section III.F., the
EPA envisions states will develop standards of performance for
designated facilities in a two -step process where states first
apply the BSER and then consider source-specific factors such as
remaining useful life.
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d. Detail on the HRI Technologies & Techniques
(1) Neural Network/Intelligent Sootblower
Neural networks. Computer models, known as neural networks, can be
used to simulate the performance of the power plant at various
operating loads. Typically, the neural network system ties into the
plant's distributed control system for data input (process monitoring)
and process control. The system uses plant specific modeling and
control modules to optimize the unit's operation and minimize the
emissions. This model predictive control can be particularly effective
at improving the plant's performance and minimizing emissions during
periods of rapid load changes--conditions that commenters claimed to be
more prevalent now than was the case 5 to 10 years ago. The neural
network can be used to optimize combustion conditions, steam
temperatures, and air pollution control equipment.
Intelligent Sootblowers. During operations at a coal-fired power
plant, particulate matter (PM) (ash or soot) builds up on heat transfer
surfaces. This build-up degrades the performance of the heat transfer
equipment and negatively affects the efficiency of the plant. Power
plant operators use steam injection ``sootblowers'' to clean the heat
transfer surfaces by removing the ash build-up. This is often done on a
routine basis or as needed based on monitored operating
characteristics. Intelligent sootblowers (ISB) are automated systems
that use process measurements to monitor the heat transfer performance
and strategically allocate steam to specific areas to remove ash
buildup.
The cost to implement an ISB system is relatively inexpensive if
the necessary hardware is already installed. The ISB software/control
system is often incorporated into the neural network software package
mentioned above. As such, the HRIs obtained via installation of neural
network and ISB systems are not necessarily cumulative.
The efficiency improvements from installation of ISB are often
greatest for EGUs firing subbituminous coal and lignite due to more
significant and rapid fouling at those units as compared to EGUs firing
bituminous coal.
Commenters recommended that the EPA disaggregate its analysis of
neural networks and ISB because these technologies do not have to be
deployed together and implementing one without the other may be
appropriate in many cases. The EPA agrees that the technologies do not
have to be implemented together and states must evaluate the
applicability and effectiveness of both technologies. The technologies
were listed together to emphasize that they are often implemented
together and that the resulting HRIs from each are not necessarily
additive.
(2) Boiler Feed Pumps
A boiler feed pump (or boiler feedwater pump) is a device used to
pump feedwater into a boiler. The water may be either freshly supplied
or returning condensate produced from condensing steam produced by the
boiler. The boiler feed pumps consume a large fraction of the auxiliary
power used internally within a power plant. For example, boiler feed
pumps can require power in excess of 10 MW on a 500-MW power plant.
Therefore, the maintenance on these pumps should be rigorous to ensure
both reliability and high-efficiency operation. Boiler feed pumps wear
over time and subsequently operate below the original design
efficiency. The most pragmatic remedy is to rebuild a boiler feed pump
in an overhaul or upgrade.
Commenters stated that because upgrading an electric boiler feed
pump impacts only net heat rate (and not gross heat rate), it should be
excluded from the candidate technologies list. The EPA disagrees that
candidate technologies affecting only the net heat rate should be
removed from the candidate technologies list. These technologies
improve the efficiency and reduce emissions from the plant by reducing
the auxiliary power load, allowing for more of the produced power to be
placed on the grid. As is discussed below in section III.F.1.c., the
state will determine whether to establish standards of performance as
gross output-based standards or as net output-based standards. If
states establish gross output-based standards, it will be up to the
states to determine how to account for emission reductions that are
attributable to technologies affecting only the net output.
[[Page 32539]]
(3) Air Heater and Duct Leakage Control
The air pre-heater is a device that recovers heat from the flue gas
for use in pre-heating the incoming combustion air (and potentially for
other uses such as coal drying). Properly operating air pre-heaters
play a significant role in the overall efficiency of a coal-fired EGU.
The air pre-heater may be regenerative (rotary) or recuperative
(tubular or plate). A major difficulty associated with the use of
regenerative air pre-heaters is air in-leakage from the combustion air
side to the flue gas side. Air in-leakage affects boiler efficiency due
to lost heat recovery and affects the axillary load since any in-
leakage requires additional fan capacity. The amount of air leaking
past the seals tends to increase as the unit ages. Improvements to
seals on regenerative air pre-heaters have enabled the reduction of air
in-leakage.
The EPA received comments that claimed the applicability of air
pre-heater seals is limited, and that low-leakage seals are not
feasible on certain units while other commenters agreed that the HRI
estimates for leakage reduction are reasonable, and HRI improvement
from 0.25 to 1.0 percent is achievable. The EPA agrees that the HRI
estimates for air heater and duct in-leakage are reasonable. The EPA
agrees that low-leakage seals are not feasible for certain units (e.g.,
those using recuperative air heaters). However, the EPA is finalizing a
determination that this candidate technology is an element of the BSER
because limiting air in-leakage in the air heater and associated duct
work can be evaluated on all units and limiting the amount of air in-
leakage will improve the efficiency of the unit.
(4) Variable Frequency Drives (VFDs)
VFD on induced draft (ID) fans. The increased pressure required to
maintain proper flue gas flow through downstream air pollutant control
equipment may require additional fan power, which can be achieved by an
ID fan upgrade/replacement or an added booster fan. Generally, older
power plant facilities were designed and built with centrifugal fans.
The most precise and energy-efficient method of flue gas flow
control is the use of VFD. The VFD controls fan speed electrically by
using a static controllable rectifier (thyristor) to control frequency
and voltage and, thereby, the fan speed. The VFD enables very precise
and accurate speed control with an almost instantaneous response to
control signals. The VFD controller enables highly efficient fan
performance at almost all percentages of flow turndown.
Due to current electricity market conditions, many units no longer
operate at base-load capacity and, therefore, VFDs, also known as
variable-speed drives on fans can greatly enhance plant performance at
off-peak loads. Additionally, units with oversized fans can benefit
from VFD controls. Under these scenarios, VFDs can significantly
improve the unit heat rate. VFDs as motor controllers offer many
substantial improvements to electric motor power requirements. The
drives provide benefits such as soft starts, which reduce initial
electrical load, excessive torque, and subsequent equipment wear during
startups; provide precise speed control; and enable high-efficiency
operation of motors at less than the maximum efficiency point. During
load turndown, plant auxiliary power could be reduced by 30-60 percent
if all large motors in a plant were efficiently controlled by VFD. With
unit loads varying throughout the year, the benefits of using VFDs on
large-size equipment, such as FD or ID fans, boiler feedwater and
condenser circulation water pumps, can have significant impacts. There
are circumstances in which the HRI has been estimated to be much higher
than that shown in Table 1, depending on the operation of the unit.
Cycling units realize the greatest gains representative of the upper
range of HRI, whereas units which were designed with excess fan
capacity will exhibit the lower range.
VFD on boiler feed pumps. VFDs can also be used on boiler feed
water pumps as mentioned previously. Generally, if a unit with an older
steam turbine is rated below 350 MW, the use of motor-driven boiler
feedwater pumps as the main drivers may be considered practical from an
efficiency standpoint. If a unit cycles frequently then operation of
the pumps with VFDs will offer the best results on heat rate
reductions, followed by fluid couplings. The use of VFDs for boiler
feed pumps is becoming more common in the industry for larger units.
And with the advancements in low pressure steam turbines, a motor-
driven feed pump can improve the thermal performance of a system up to
the 600-MW range, as compared to the performance associated with the
use of turbine drive pumps.
Some commenters stated that VFDs should be excluded from the
candidate technologies list because the efficiency improvements are
likely near zero when the EGU operates as a baseload unit. Commenters
further stated that VFD installation may not be reasonable because of
their high cost, large physical size, and significant cooling
requirements. The EPA agrees that VFD HRIs will be less effective for
units that operate consistently at high capacity factors at base load
conditions. However, due to the changing nature of the power sector
(increased use of natural gas-fired generating sources, more
intermittent renewable generating sources, etc.), many coal-fired EGUs
are cycling more often and the heat rate of such units will benefit
from installation of VFD technology. In evaluating the applicability of
the BSER technologies, states will consider ``other factors'' that will
include expected utilization rate, remaining useful life, physical/
space limitations, etc. That evaluation of ``other factors'' will
identify whether implementation of a BSER candidate technology is
reasonable. The EPA is finalizing a determination that this candidate
technology is an element of the BSER because it contributes to emission
reductions and it is broadly applicable at reasonable cost.
Commenters also stated that VFDs only impact net heat rate, so
efficiency improvements may not be cost-effective. As stated earlier,
if the states choose to establish gross output-based standards of
performance, it will be up to the states to determine how to account
for emission reductions attributable to improvement to net heat rate.
(5) Blade Path Upgrade (Steam Turbine)
Upgrades or overhauls of steam turbines offer the greatest
opportunity for HRI on many units. Significant increases in performance
can be gained from turbine upgrades when plants experience problems
such as steam leakages or blade erosion. The typical turbine upgrade
depends on the history of the turbine itself and its overall
performance. The upgrade can entail myriad improvements, all of which
affect the performance and associated costs. The availability of
advanced design tools, such as computational fluid dynamics (CFD),
coupled with improved materials of construction and machining and
fabrication capabilities have significantly enhanced the efficiency of
modern turbines. These improvements in new turbines can also be
utilized to improve the efficiency of older steam turbines whose
efficiency has degraded over time.
Commenters stated that steam turbine blade path upgrades may not be
achievable for every turbine because of the potentially significant
variability in an individual turbine's parameters when considering
costs. Commenters further noted that these are large investments that
can require lengthly outages and long lead times.
[[Page 32540]]
Other commenters noted that these steam turbine blade path upgrades
have been commercially available for over 10 years and that the HRI
estimates in Table 1 appear reasonable.
The EPA agrees that steam turbine blade path upgrades are
commercially available and that the HRI estimates in Table 1 appear to
be consistent with other estimates of HRI achievable from this type of
upgrade. As mentioned earlier, based on public comments responding to
the ANPRM and the ACE proposal, this HRI measure has the potential to
trigger NSR requirements (in the absence of NSR program reforms), and
the EPA anticipates that, among the candidate technologies identified
as comprising the BSER, states may be relatively more likely to
determine in light of the resulting requirements for analysis,
permitting, and capital investments that this candidate technology is
not economically feasible when evaluating it in the process of
establishing standards of performance for particular existing sources
within their jurisdiction. Nevertheless, the EPA is finalizing a
determination that steam turbine blade bath upgrades are part of the
BSER because the EPA anticipates they will still be generally available
and feasible at a sufficient scale among the nationwide fleet.
(6) Redesign/Replace Economizer
In steam power plants, economizers are heat exchange devices used
to capture waste heat from boiler flue gas which is then used to heat
the boiler feedwater. This use of waste heat reduces the need to use
extracted energy from the system and, therefore, improves the overall
efficiency or heat rate of the unit. As with most other heat transfer
devices, the performance of the economizer will degrade with time and
use, and power plant representatives contend that economizer
replacements are often delayed or avoided due to concerns about
triggering NSR requirements. In some cases, economizer replacement
projects have been undertaken concurrently with retrofit installation
of selective catalytic reduction (SCR) systems because the entrance
temperature for the SCR unit must be controlled to a specific range.
Commenters stated that redesigning or replacing an economizer may
be limited for some units by the need to maintain appropriate
temperatures at a downstream SCR system for nitrous oxides (NOx)
control. Commenters also stated that applicability of this measure will
be site-specific because boiler layout and construction varies widely
between units. Commenters stated that the values in Table 1 appear to
reflect a major economizer redesign which may not be possible for many
units. The EPA agrees that there will likely be site-specific factors
that must be considered to determine whether economizer redesign/
replacement is a feasible HRI option (as is the case for all the BSER
candidate technologies). Nevertheless, the EPA is finalizing a
determination that economizer upgrades (or replacement) are part of the
BSER because the EPA anticipates they will still be generally available
and feasible at a sufficient scale among the nationwide fleet. As
mentioned earlier, states may take into consideration site-specific
characteristics (``other factors'') when establishing a standard of
performance for each unit.
(7) HRI Techniques--Best Operating and Maintenance Practices
Many unit operators can achieve additional HRI by adopting best O&M
practices. The amount of achievable HRI will vary significantly from
unit to unit, ranging from no improvement to potentially more than 2.0
percent depending on the unit's historical O&M practices. In setting a
standard of performance for a specific unit or subcategory of units,
states will evaluate the opportunities for HRI from the following
actions.
(a) Adopt HRI Training for O&M Staff
EGU operators can obtain HRI by adopting ``awareness training'' to
ensure that all O&M staff are aware of best practices and how those
practices affect the unit's heat rate.
Some commenters agreed that HRI training can improve staff
awareness of plant efficiency measures, which should result in improved
plant performance. Other commenters stated that the benefits of HRI
training are highly variable and depend on existing equipment and
staff. Some commenters stated that the operating staff already
routinely undergo HRI training and that states should not be required
to consider these measures in developing their plans. The EPA agrees
that the benefits will be variable from unit to unit depending upon the
unit's historical O&M practices. If operating staff at a source already
undergo routine HRI training, then the state will note that in the
standard-setting process. Just as an EGU that has recently installed
new or reconstructed boiler feed pumps would not be expected to replace
those pumps, a source that already has an effective HRI training
program in place would not be expected to implement a new HRI training
program. The EPA is finalizing a determination that this practice is an
element of the BSER because it can result in emission reductions and
can be broadly implemented at reasonable cost.
(b) Perform On-Site Appraisals To Identify Areas for Improved Heat Rate
Performance
Some large utilities have internal groups that can perform on-site
evaluations of heat rate performance improvement opportunities. Outside
(i.e., third-party) groups can also provide site-specific/unit-specific
evaluations to identify opportunities for HRI.
Commenters stated that the benefits of on-site appraisals are
variable, speculative, and site-specific. Commenters stated that no
state should determine what opportunities a coal-fired EGU might find
during an on-site appraisal, and, therefore, that states should not be
required to evaluate the applicability of on-site appraisals when
developing their plans and establishing standards of performance for
existing sources within their jurisdiction. The EPA agrees that the
benefits of on-site appraisals will be variable and site-specific. As
with other BSER measures, it will be up to each state to determine the
extent of this requirement. States may require that the owner/operator
perform an on-site appraisal to identify areas for HRI or the state may
choose to have a third party conduct an on-site HRI appraisal.
(c) Improved Steam Surface Condenser--Cleaning
Effective operation of the steam surface condenser in a power plant
can significantly improve a unit's heat rate. In fact, in many cases
ineffective operation can pose the most significant hindrance to a
plant trying to maintain its original design heat rate. Since the
primary function of the condenser is to condense steam flowing from the
last stage of the steam turbine to liquid form, it is most desirable
from a thermodynamic standpoint that this occurs at the lowest
temperature reasonably feasible. By lowering the condensing
temperature, the backpressure on the turbine is lowered, which improves
turbine performance.
Condenser cleaning. A condenser degrades primarily due to fouling
of the tubes and air in-leakage. Tube fouling leads to reduced heat
transfer rates, while air in-leakage directly increases the
backpressure of the condenser and degrades the quality of the water.
Condenser tube cleaning can be performed using either on-line methods
or more rigorous off-line methods.
[[Page 32541]]
Commenters stated that improved steam surface condenser cleaning is
a viable O&M option. Commenters stated that the need for such cleaning
can be determined by enhanced monitoring of condenser performance. The
EPA agrees with this assessment and notes that many owner/operators may
already have steam surface condenser cleaning as part of routine O&M
for their units. The EPA is finalizing a determination that this O&M
practice is an element of the BSER because it provides opportunity for
heat rate improvement and is broadly applicable.
e. Cost of HRI
The EPA finds that the costs of the HRI technologies and practices
that the EPA has identified as the BSER and provided in Table 1 are
reasonable because they improve the efficiency of the units to which
they are applied. This results in lower operating costs (especially
lower fuel costs). In fact, these HRI technologies and practices are
the types of efficiency improvement measures that some owners and
operators have reasonably implemented at times over the course of the
operating life of their EGUs. In specific circumstances the cost to
implement one or more of the technologies may be determined to be
unreasonable--after consideration of source-specific factors. This will
be determined when states establish standards by applying the BSER and
taking other factors, including remaining useful life, into
consideration.
(1) Reasonableness of Cost
As mentioned earlier, under CAA section 111(a)(1), the EPA
determines ``the best system of emission reduction which (taking into
account the cost of achieving such reduction . . .) . . . has been
adequately demonstrated.'' 42 U.S.C. 7411(a)(1) (emphasis added). In
several cases, the D.C. Circuit has elaborated on this cost factor in
various ways, stating that the EPA may not adopt a standard for which
costs would be ``exorbitant,'' \177\ ``greater than the industry could
bear and survive,'' \178\ ``excessive,'' \179\ or ``unreasonable.''
\180\ These formulations appear to be synonymous and suggest a cost-
reasonableness standard. Therefore, in this action, the EPA has
evaluated whether the costs of HRI are considered to be reasonable as a
general matter across the fleet of existing sources.
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\177\ Lignite Energy, 198 F.3d at 933.
\178\ Portland Cement, 513 F.2d at 508.
\179\ Sierra Club, 657 F.2d at 343.
\180\ Id.
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Any efficiency improvement made by an EGU will also reduce the
amount of fuel consumed per unit of electricity output; fuel costs can
account for a large percentage of the overall costs of power
production. The cost attributable to CO2 emission
reductions, therefore, is the net cost of achieving HRIs after any
savings from reduced fuel expenses. So, over some time period
(depending upon, among other factors, the extent of HRIs, the cost to
implement such improvements, and the unit utilization rate), the
savings in fuel cost associated with HRIs may be sufficient to cover
the costs of implementing the HRI measures. Thus, the net costs of HRIs
associated with reducing CO2 emissions from designated
facilities can be relatively low depending upon each EGU's individual
circumstances. It should be noted that this cost evaluation is not an
attempt to determine the affordability of the HRI in a business or
economic sense (i.e., the reasonableness of the imposed cost is not
determined by whether there is an economic payback within a predefined
time period). However, the ability of EGUs to recoup some of the costs
of HRIs through fuel savings supports a finding that costs are
reasonable. While some EGUs may not realize the full potential of cost
recuperation from fuel savings, the EPA finds that the net costs of
implementing HRIs as an approach to reducing CO2 emissions
from fossil fuel-fired EGUs are reasonable because they are not
exorbitant or excessive. In fact, these HRIs are the types of
efficiency improvement measures that some owners and operators have
reasonably implemented at times over the course of the operating life
of their EGUs.
It will be up to the states to, either directly or indirectly, take
cost into consideration in establishing unit-specific standards of
performance. CAA section 111(d) explicitly allows the states to take
into consideration, among other factors, the remaining useful life of
the existing source in applying the standard of performance. For
example, a state may find that an HRI technology is applicable for an
affected coal-fired EGU but find that the costs are not reasonable when
consideration is given to the timeframe for the planned retirement of
the source (i.e., the source's remaining useful life). A state may find
that an HRI technology is applicable for an affected coal-fired EGU but
find that the costs are not reasonable because the source is already
implementing that HRI technology and it would not be reasonable to
expect the source to replace that HRI technology with a newer version
of the same technology.
There are several ways that cost can be considered. For example,
when evaluating costs for criteria pollutants in a BACT analysis or for
a ``beyond-the-floor'' analysis for HAP under CAA section 112, the
emphasis is focused on the cost of control relative to the amount of
pollutant removed--a metric typically referred to as the ``cost-
effectiveness.'' There have been relatively few BACT analyses
evaluating GHG reduction technologies for coal-fired EGUs. Therefore,
there are not a large number of GHG cost-effectiveness determinations
to compare against as a measure of the cost reasonableness.
Nevertheless, in PSD and title V permitting guidance for GHG emissions,
the EPA noted that ``it is important in BACT reviews for permitting
authorities to consider options that improve the overall energy
efficiency of the source or modification--through technologies,
processes and practices at the emitting unit. In general, a more energy
efficient technology burns less fuel than a less energy efficient
technology on a per unit of output basis.'' \181\ The EPA has also
noted that a ``number of energy efficiency technologies are available
for application to both existing and new coal-fired EGU projects that
can provide incremental step improvements to the overall thermal
efficiency.'' \182\
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\181\ See page 21, ``PSD and Title V Permitting Guidance for
Greenhouse Gases,'' EPA-457/B-11-001, March 2011; https://www.epa.gov/sites/production/files/2015-12/documents/ghgpermittingguidance.pdf.
\182\ See page 25, ``Available and Emerging Technologies for
Reducing Greenhouse Gas Emissions from Coal-fired Electric
Generating Units,'' October 2010; https://www.epa.gov/sites/production/files/2015-12/documents/electricgeneration.pdf.
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(2) Cost of the HRI Candidate Technologies Measures
The estimated costs for the BSER candidate technologies are
presented below in Table 2. These are cost ranges from the 2009 Sargent
& Lundy Study \183\ updated to $2016.\184\ These costs correspond to
ranges of HRI (percent) presented earlier in Table 1.
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\183\ ``Coal-Fired Power Plant Heat Rate Reductions'' Sargent &
Lundy report SL-009597 (2009) Available in the rulemaking docket at
EPA-HQ-OAR-2017-0355-21171.
\184\ The conversion factor comes from Federal Reserve Economic
Data (FRED). See https://fred.stlouisfed.org.
[[Page 32542]]
Table 2--Summary of Cost ($2016/kW) of HRI Measures
--------------------------------------------------------------------------------------------------------------------------------------------------------
<200 MW 200-500 MW >500 MW
HRI Measure -----------------------------------------------------------------------------------------------
Min Max Min Max Min Max
--------------------------------------------------------------------------------------------------------------------------------------------------------
Neural Network/Intelligent Sootblowers.................. 4.7 4.7 2.5 2.5 1.4 1.4
Boiler Feed Pumps....................................... 1.4 2.0 1.1 1.3 0.9 1.0
Air Heater & Duct Leakage Control....................... 3.6 4.7 2.5 2.7 2.1 2.4
Variable Frequency Drives............................... 9.1 11.9 7.2 9.4 6.6 7.9
Blade Path Upgrade (Steam Turbine)...................... 11.2 66.9 8.9 44.6 6.2 31.0
Redesign/Replace Economizer............................. 13.1 18.7 10.5 12.7 10.0 11.2
-----------------------------------------------------------------------------------------------
Improved O&M Practices.................................. Minimal capital cost
--------------------------------------------------------------------------------------------------------------------------------------------------------
These costs presented in Table 2 represent both capital and O&M
costs. Investments in HRI measures at EGUs should also result in fuel
savings which can offset some or all of the cost of the HRI. However,
the EPA does not suggest that HRI measures should meet any particular
economic criterion (e.g., pay for themselves through reduced fuel
costs) in order to be applied in state plans for the establishment of
source-specific standards of performance.
The technical applicability and efficacy of HRI measures and the
cost of implementing them are dependent upon site specific factors and
can vary widely from site to site. Because there is inherent
flexibility provided to the states in applying the standards of
performance, there is a wide range of potential outcomes that are
highly dependent upon how the standards are applied (and to what degree
states take into consideration other factors, including remaining
useful life).
Because the heat rate improvement technologies result in fuel
savings and other potential cost savings and the listed candidate
technologies are the types of improvements and equipment upgrades that
have been previously undertaken, the EPA finds that the costs of the
HRI technologies and practices that have been identified as the BSER
and provided in Table 1 are reasonable.
f. Non-Air Quality Health and Environmental Impacts, Energy
Requirements, and Other Considerations
As directed by CAA section 111(a)(1), the EPA has taken into
account non-air quality health and environment requirements for each of
the candidate BSER technologies listed in Tables 1 and 2. None of the
candidate technologies, if implemented at a coal-fired EGU, would be
expected to result in any deleterious effects on any of the liquid
effluents (e.g., scrubber liquor) or solid by-products (e.g., ash,
scrubber solids). The EPA has also taken into account energy
requirements. All of these candidate technologies, when implemented,
would have the effect of improving the efficiency of the coal-fired
EGUs to which they are applied. As such, the EGU would be expected to
use less fuel to produce the same amount of electricity as it did prior
to the efficiency (heat rate) improvement. None of the candidate
technologies is expected to impose any significant additional auxiliary
energy demand.
Implementation of heat rate improvement measures also would achieve
reasonable reductions in CO2 emissions from designated
facilities in light of the limited cost-effective and technically
feasible emissions control opportunities. In the same vein, because
existing sources face inherent constraints that new sources do not,
existing sources present different, and in some ways more limited,
opportunities for technological innovation or development.
Nevertheless, the final emissions guidelines encourage technological
development by promoting further development and market penetration of
equipment upgrades and process changes that improve plant efficiency
leading to reasonable reductions in CO2 emissions.
3. Discussion of ``Rebound Effect''
At proposal, the EPA solicited comment on potential CO2
emissions and generation changes that might occur as a result of
efficiency improvements at designated facilities, including potential
increased generation to the point of a net increase in emissions from a
particular facility, also referred to as the ``rebound effect.'' In
some instances, it is possible that certain sources increase in
generation (relative to some baseline) as a result of lower operating
costs from adoption of candidate technologies to improve their
efficiency. The EPA conducted analysis and modeling for the ACE
proposal, and found that while there were instances (in some scenarios)
where a limited number of designated facilities that adopted HRI
increased generation to the point of increasing mass emissions
notwithstanding the lower emissions rate resulting from HRI adoption,
due to their improved efficiency and marginally improved economic
competitiveness relative to other electric generators, the designated
facilities as a group reduce emissions because they can generate higher
levels of electricity with a lower overall emission rate.
Some commenters on the proposed rule highlighted environmental and
legal concerns with the rebound effect as undermining the BSER, while
others commented that the concern was de minimis, not rooted in any
legal basis, and not germane to establishing standards of performance.
On one side, some commenters asserted that the determined BSER is not
properly designed because it would not achieve emission reductions if
it results in higher utilization and, therefore, emission increases.
Some doubted the EPA claims of lower systemwide emissions and said the
EPA had not adequately analyzed the concern. Some asserted that the
assumptions used in the analysis do not reflect real world
considerations that efficiency of all fossil fuel plants degrades over
time, rather than being static. Also, some asserted that the EPA had
understated the amount of coal capacity that will likely retire in its
analysis, and, thus, the remaining coal fleet will consist of more
efficient and competitive units that may end up emitting more than the
EPA's analysis shows. In addition, some asserted that the EPA's
proposed NSR reforms allow sources to extend lifetimes without
requiring controls, exacerbating rebound issues.
Other commenters asserted that CAA section 111 does not require the
Agency to obtain absolute reductions in emissions at a sector-wide
level, and the EPA's obligation is to determine the BSER through
evaluation of emissions performance per output at the unit-level. Some
commenters stated that any rebound effect from more efficient units is
most likely to come at expense of lower-efficiency coal units, negating
the effect. Also, commenters contended that rebound is unlikely to
change the
[[Page 32543]]
dispatch order and/or utilization of units based upon the levels of HRI
that are reasonable and part of ACE, and, thus, any rebound effect
would be de minimis.
The EPA agrees with the commenters who do not see the rebound
effect as undermining the BSER determination in this rule, because this
rule is aimed at improving a source's emissions rate performance at the
unit-level. Indeed, in repealing the ``percent reduction'' requirement
from the 1977 CAA Amendments, Congress expressly acknowledged that
standards of performance were to be expressed as an emissions
rate.\185\ In addition, as noted above, this rule results in overall
reductions of emissions of CO2. Because the BSER in this
rule improves the emissions rate of designated facilities and results
in overall reductions, the limited rebound effect that may occur does
not undermine the BSER.
---------------------------------------------------------------------------
\185\ See 1990 CAA Amendments, section 403, 104 Stat. at 2631
(``the Administrator shall promulgate revised regulations for
standards of performance . . . that, at a minimum, require any
source subject to such revised standards to emit sulfur dioxide at a
rate not greater than would have resulted from compliance by such
source with the applicable standards of performance under this
section prior to such revision'') (emphasis added).
---------------------------------------------------------------------------
Nonetheless, to the extent commenters have asserted that ACE would
cause an increase in aggregate CO2 emissions due to some
sources operating more, this concern is not supported by our analysis.
The EPA conducted updated modeling and analysis for the final ACE rule
(see Chapter 3 of the RIA for more details) and confirmed that
aggregate CO2 emissions from the group of designated
facilities are anticipated to decrease (outweighing any potential
CO2 increases related to increased generation by certain
units).
The final ACE rule establishes the BSER, and a framework for states
to determine rate-based standards of performance for designated
facilities. The BSER for ACE is expressed as a rate-based approach,
which should necessarily result in rate-based emission reductions. The
modeling and analysis show individual units and the entire coal fleet
reducing emission rates, as well as an aggregate decrease in mass
emissions. As such, any potential ``rebound effect'' is determined to
be small and manageable (if necessary) and does not require any
specific remedy in the final rule. However, if a state determines that
the source-specific factors of a designated facility dictate that the
rebound effect is an issue that should be considered in setting the
standard of performance, that is within the state's discretion to
consider in the process of establishing a standard of performance for
that particular existing source. As noted above and as a result of
modeling, the EPA does not expect these considerations to be necessary
in the state plan development process.
4. Systems That Were Evaluated But Are Not Part of the Final BSER
The EPA identified several systems of GHG emission reduction that
may be applied at or to designated facilities but did not propose that
they should be part of the BSER. The Agency solicited comment on the
rationale for eliminating or not identifying those alternative systems
as part of the BSER. After consideration of public comments, the EPA is
not revising its proposed determination and is not including any
additional or different systems of emission reduction in the final BSER
determination. A description of the considered systems of emission
reduction that are not part of the final BSER along with a summary of
significant public comments is provided below.
The EPA previously considered co-firing (including 100 percent
conversion) with natural gas and implementation of carbon capture and
storage (CCS) as potential BSER options. See 80 FR 64727. In that
analysis, the EPA found some natural gas co-firing and CCS measures to
be technically feasible but determined that switching from coal to gas
is ``a relatively costly approach to CO2 reductions at
existing coal steam boilers when compared to other measures such as
heat rate improvements. . .'' \186\ and that the cost to implement CCS
for existing source standards is not reasonable and that ``CCS is not
an appropriate component of the [BSER].'' \187\ A more detailed
description of the current consideration of these technologies is
provided below.
---------------------------------------------------------------------------
\186\ Technical Support Document (TSD) for Carbon Pollution
Guidelines for Existing Power Plants: Emission Guidelines for
Greenhouse Gas Emissions from Existing Stationary Sources: Electric
Utility Generating Units; Chapter 6, June 10, 2014, Available at
Docket Item No. EPA-HQ-OAR-2013-0602-36852.
\187\ Id. Chapter 7
---------------------------------------------------------------------------
a. Natural Gas Repowering
Coal-fired utility boilers can reduce their emissions by firing
natural gas instead of--or in combination with--coal. This can be done
in three different ways: (1) By repowering, (2) by co-firing, or (3) by
refueling. Repowering is when an existing coal-fired boiler is replaced
with one or more natural gas-fired stationary combustion turbines,
while still utilizing the existing steam turbines. Co-firing and
refueling involve the burning of natural gas at an existing
boiler.\188\
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\188\ Co-firing and refueling are discussed in section III.E.4.b
of this preamble.
---------------------------------------------------------------------------
In the ACE proposal, the EPA did not consider natural gas
repowering as a potential system of emission reduction (i.e., as a
candidate for the BSER) based on the reasoning that this option would
fundamentally redefine the existing sources subject to the rule.\189\
Some commenters argued, however, that coal-fired utility boilers can
reduce emissions through natural gas repowering and it should be the
BSER. Other commenters argued that the `redefining the source' concept
from PSD was inappropriate for application to NSPS. After considering
public comments on this issue, the EPA concludes that repowering should
not be considered for purposes of CAA section 111(d). As described in
more detail below, repowering is not a ``system'' of emission reduction
for a source at all because it cannot be applied to the existing
sources subject to this rule (steam generating units). Rather,
repowering these existing units would replace them entirely with a
different type of source (stationary combustion turbines) that would be
subject to the NSPS in 40 CFR part 60, subpart TTTT.\190\ Even if
repowering were to be evaluated to determine if it was part of the
BSER, the EPA has found non-air quality health and environmental
impacts and energy requirements that demonstrate that repowering is not
part of the BSER.\191\
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\189\ See 83 FR 44753.
\190\ The EPA is not concluding whether or not the `redefining
the source' concept can or should be applied in the context of the
NSPS program.
\191\ These non-air quality health and environmental impacts and
energy requirements are discussed in more detail below in the
discussion of refueling and co-firing. Except to the extent that
discussion involves the inefficient combustion of natural gas, the
non-air quality health and environmental impacts and energy
requirements found for these technologies are similar, if not
identical, to those the EPA has found for repowering.
---------------------------------------------------------------------------
As described above, a ``standard of performance'' under CAA section
111(d) must be ``establishe[d]'' for an ``existing source.'' However,
repowering a coal-fired boiler--that is, the replacement of a boiler
with a stationary combustion turbine--creates a ``new source,'' which
is regulated directly by the EPA under 40 CFR part 60, subpart TTTT
(establishing standards for the control of GHG emissions from new,
modified, or reconstructed steam generating units, IGCCs, or stationary
combustion turbines). The ``best system of emission reduction'' for an
existing source,
[[Page 32544]]
therefore, simply cannot be the creation of a new source that is
regulated under separate authority. Otherwise, the EPA could subvert
the provisions of CAA section 111(d) (which authorizes states to
regulate existing sources in the first instance) and require all
existing sources to transform into ``new sources,'' which the Agency
can directly regulate under CAA section 111(b). Therefore, repowering a
coal-fired boiler is not a ``system'' within the scope of the BSER.
b. Natural Gas Co-Firing and Refueling
Some coal-fired utility boilers use natural gas or other fuels
(such as distillate fuel oil) for startup operations, for maintaining
the unit in ``warm standby,'' or for NOX control (either
directly as a combustion fuel or in configuration referred to as
natural gas reburn). During such periods of natural gas co-firing, an
EGU's CO2 emission rate is reduced as natural gas is a less
carbon intensive fuel than coal. For example, at 10 percent natural gas
co-firing, the net emissions rate (lb/MWh-net) of a typical unit could
decrease by approximately 4 percent.
Commenters stated that the EPA should determine that natural gas
co-firing is the BSER because it is technically feasible, readily
available, achieves significant emission reductions, and may be the
most cost-effective option for some facilities. Some commenters also
provided data (from EIA) to assert that co-firing is widely used and
adequately demonstrated at coal-fired EGUs. The commenters contended
that a significant number of coal-fired EGUs have the capacity to burn
both natural gas and coal. One commenter asserted that 35 percent of
coal-fired utility boilers across 33 states co-fired with natural gas.
Another commenter provided a table listing coal-fired EGUs that have
recently converted to natural gas or are co-firing with natural gas.
One commenter cited data from the EIA and claimed that 48 percent of
steam generating EGUs are already co-firing some amount of natural gas.
While the EPA agrees with the assertion that there are existing
coal plants that have some access to a supply of natural gas, the EPA
disagrees that the data demonstrate that co-firing is a system of
emission reduction that has been or that could be implemented on a
nationwide scale at reasonable cost. The EPA believes that commenters
have conflated operational co-firing (i.e., co-firing coal and natural
gas to generate electricity) with startup co-firing (i.e., only using
natural gas to heat up a utility boiler or to maintain temperature
during standby periods). Coal-fired boilers always use a secondary fuel
(most often natural gas or distillate fuel oil), utilizing burners
specifically configured to bring the boiler from a cold, non-operating
status to a temperature where coal, the primary fuel, can be safely
introduced for normal operations.
The EPA conducted its own analysis using EIA fuel use data from
2017.\192\ The EPA's analysis supports the assertion that nearly 35
percent of coal-fired units co-fired (in either sense of co-firing as
described above) with natural gas in 2017. However, very few--less than
four percent of coal-fired units--co-fired with natural gas in an
amount greater than five percent of the total annual heat input. This
strongly suggests that most of the natural gas that was utilized at
these sites was used as a secondary fuel for unit startup or to
maintain the unit in ``warm standby'' rather than as a primary fuel for
generation of electricity. Further, the small number of units that co-
fired with greater than five percent natural gas during 2017 operated
at an average capacity factor of only 24 percent--indicating that they
are not the most economical units and are not dispatched as frequently
as those units that used less than five percent natural gas. For
comparison, in 2017, 62 percent of coal-fired utility boilers co-fired
with some amount of distillate fuel oil and, as with natural gas, the
vast majority of those units used less than 5 percent distillate fuel
oil (again, strongly suggesting that it is primarily used as a
secondary fuel for startup and warm standby).
---------------------------------------------------------------------------
\192\ See the memorandum ``2017 Fuel Usage at Affected Coal-
fired EGUs,'' available in the rulemaking docket (Docket ID No. EPA-
HQ-OAR-2017-0355).
---------------------------------------------------------------------------
The EPA also disagrees that the data demonstrate that co-firing can
be considered at the national level as an adequately demonstrated
system of emission reduction and that there are easy paths to expand it
at a reasonable cost. The EIA 923 fuel use data indicated that about 65
percent of coal-fired utility boilers use something other than natural
gas as the secondary fuel for periods of startup and standby
operations. Distillate fuel oil is by far the most commonly used
secondary fuel. While the use of distillate fuel oil does not
necessarily mean that the unit lacks access to natural gas, it suggests
that for many of those units, there is an inadequate supply to serve
even as a secondary fuel for startup and standby operations. The 2018
average price \193\ of distillate fuel oil was more than four times
higher than that of natural gas; so, if there was an adequate supply of
natural gas, then it would be much more economically favorable to
utilize that natural gas rather than the much more expensive distillate
fuel oil. As explained earlier, for plants that require additional or
new pipeline capacity, the capital cost of constructing new pipeline
laterals is approximately $1 million per mile of pipeline built.
Therefore, a 50-mile gas pipeline would add $50 million--$100/kW for a
typical 500 MW unit--to the capital costs of adding co-firing
capability.
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\193\ The 2018 average U.S. power generation fuel costs for
natural gas was $3.52 per million Btu while the cost for distillate
fuel oil for power generation was $16.13 per million Btu. U.S. EIA
Short Term Energy Outlook, https://www.eia.gov/outlooks/steo/tables/pdf/2tab.pdf.
---------------------------------------------------------------------------
As mentioned earlier, the EPA has previously evaluated the costs
associated with using natural gas refueling or co-firing as a GHG
mitigation option. See 79 FR 34875. For a typical base-load coal-fired
EGU, the average cost of CO2 reductions achieved through co-
firing with 10 percent natural gas would be approximately $136 per ton
of CO2. While a utility boiler that is converted to 100
percent natural gas-fired can offset some of the capital costs by
reducing its fixed operating and maintenance costs (though, as
discussed below, the costs would still be considerably higher than the
HRI technologies that the EPA identified as the BSER), a unit that is
co-firing natural gas with coal would continue to bear the fixed costs
associated with equipment needed for coal combustion, raising the cost
per ton of CO2 reduced.
In determining the BSER, CAA section 111(a)(1) also directs the EPA
to take into account non-air quality health and environmental impacts
and energy requirements. The EPA is unaware of any significant non-air
quality health or environmental impacts associated with natural gas co-
firing. However, in taking energy requirements into account, the EPA
notes that co-firing natural gas in coal-fired utility boilers is not
the best or most efficient use of natural gas and, as noted above, can
lead to less efficient operation of utility boilers. NGCC stationary
combustion turbine units are much more efficient at using natural gas
as a fuel for generating electricity and it would not be an
environmentally positive outcome for utilities and owner/operators to
redirect natural gas from the more efficient NGCC EGUs to the less
efficient utility boilers to satisfy an emission standard at the
utility boiler. Some commenters disagreed with the EPA's claim that
increased use of natural gas in a utility boiler would
[[Page 32545]]
come at the expense of its use in more efficient NGCC units. The EPA
did not intend to imply that there is now (or that there will be) a
restricted supply of natural gas. Instead, the EPA suggested that, if
there were to be an increase in the use of natural gas, the more
efficient use for that increased natural gas would be as fuel for
under-utilized NGCC units rather than in less efficient utility
boilers. The EPA does not believe that establishing a BSER that, for
all practical purposes, would mandate increased use of natural gas in
utility boilers is good policy.
Given that a natural gas co-firing-based BSER would result in
standards that are more costly than standards based on application of
the candidate technologies for heat rate improvements, that such a BSER
would encourage inefficient use of natural gas, that implementation
would be even more expensive and challenging for those units that
currently have limited or no access to natural gas, the EPA concludes
that co-firing natural gas in coal-fired boilers is not the BSER.
Some commenters requested that co-firing be added to the list of
HRI candidate technologies (discussed in more detail below), the
combination of which would represent the BSER. However, whereas all
coal-fired utility boilers can apply (or have already applied) HRI
measures, natural gas co-firing does not satisfy the same CAA section
111(a)(1) criteria (see above). Moreover, co-firing can negatively
impact a unit's heat rate (efficiency) due to the high hydrogen content
of natural gas and the resulting production of water as a combustion
by-product.\194\ And depending on the design of the boiler and extent
of modifications, some boilers may be forced to de-rate (a reduction in
generating capacity) to maintain steam temperatures at or within design
limits, or for other technical reasons. Accordingly, natural gas co-
firing cannot be applied in combination with the HRI measures
identified as the BSER. However, natural gas co-firing might be
appropriate for certain sources as a compliance option. For a
discussion of compliance options, see below section III.F.2.
---------------------------------------------------------------------------
\194\ Natural gas firing or co-firing degrades the boiler's
efficiency (relative to the use of coal) primarily due to the
increased production of water. Some of the heat that is produced in
the combustion process will be used to heat that flue gas moisture
(which will exit with the stack gases) rather than to converting
water in the boiler tubes to steam. The efficiency declines because
there is less heat available to produce useful steam.
---------------------------------------------------------------------------
Some commenters also suggested that the EPA's concerns about using
gas inefficiently were not persuasive because the United States has
such an abundant supply of natural gas. The EPA disagrees for many of
the same reasons that the Agency relied upon to reject the
consideration of natural gas as the BSER. First, it is on the higher
end of the cost of the measures the EPA considered even for units with
ready natural gas availability; second, many designated facilities do
not have natural gas availability, so it is not broadly applicable.
The same factors discussed above lead the Agency to conclude that
refueling also cannot be BSER. Refueling is when an existing coal-fired
boiler is converted to a natural gas-fired boiler (i.e., firing 100%
natural gas). In the ACE proposal, the EPA did not consider natural gas
refueling as a potential system of emission reduction (i.e., as a
candidate for the BSER) based on the reasoning that this option would
fundamentally redefine the existing sources subject to the rule.\195\
Some commenters argued, however, that coal-fired utility boilers can
reduce emissions through natural gas refueling and should be the BSER.
Other commenters argued that the `redefining the source' concept from
PSD was inappropriate for application to NSPS.\196\ After considering
public comments on this issue, the EPA concludes that natural gas
refueling, like natural gas co-firing, is not the BSER.
---------------------------------------------------------------------------
\195\ See 83 FR 44753.
\196\ As with repowering, the EPA is not concluding whether or
not the ``redefining the source'' concept can or should be applied
in the context of the NSPS program.
---------------------------------------------------------------------------
The EPA has previously evaluated the costs associated with using
natural gas refueling or co-firing as a GHG mitigation option.\197\ The
capital costs of plant modifications required to switch a coal-fired
EGU completely to natural gas are roughly $100-300/kW, not including
any costs associated with constructing additional pipeline capacity.
Many coal-fired plants do not have immediate and ready access to any
supply of natural gas. Others that do have access to a supply of
natural gas have only a limited supply (i.e., enough for startup and
warm standby firing, but not enough for full load firing). For plants
that require additional pipeline capacity, the capital cost of
constructing new pipeline laterals is approximately $1 million per mile
of pipeline built. A 50-mile gas pipeline would add $50 million--$100/
kW for a typical 500 MW unit--to the capital costs of the conversion.
---------------------------------------------------------------------------
\197\ See 79 FR 34875.
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While a coal-fired utility boiler that is converted to a 100
percent natural gas-fired boiler could offset some of the capital costs
by reducing its fixed operating and maintenance costs, in most cases,
the most significant cost change associated with switching from coal to
gas is likely to be the difference in fuel cost. Using the EIA's
projections of future coal and natural gas prices, switching a utility
boiler from coal-fired to natural gas-fired could more than double the
unit's fuel cost per MWh of generation. For a typical base-load coal-
fired EGU, the average cost of CO2 reductions achieved
through gas conversion would be approximately $75 per ton of
CO2. This cost could also be much higher as there would very
likely be an increase in natural gas prices corresponding to the
increased demand from widespread coal-to-gas conversion.
The EPA also found that consideration of energy requirements (as
required by CAA section 111(a)(1)) provides additional reasons why
refueling natural gas in a utility boiler should not be considered
BSER.\198\ Burning natural gas in a utility boiler is not the best use
of such fuel as it is much less efficient than burning it in a
combustion turbine. New natural gas combined cycle (NGCC) units can
convert the heat input from natural gas to electricity with an
efficiency of more than 50 percent.\199\ A coal-fired utility boiler
that is repurposed to burn 100 percent natural gas will see a reduction
in efficiency of up to five percent (to less than 40 percent
efficiency) as the higher hydrogen content in the natural gas fuel will
lead to higher moisture losses that will negatively impact the boiler
efficiency.\200\ Widespread refueling is not a practice that the EPA
should be promoting as it is not the most efficient use of natural gas.
Utilities choosing to increase use of natural gas in a combined cycle
or simple cycle combustion turbine is a more efficient way to utilize
natural gas for electricity generation. In reaching this determination,
the EPA is mindful of Congress's direction to ``tak[e] into account . .
. energy requirements'' in determining the best system of emission
reduction in CAA section 111(a)(1). Consideration of ``energy
requirements'' is one of the factors informing the EPA's judgment that
it would be inappropriate to base performance standards on an
[[Page 32546]]
inherently energy-inefficient practice such as refueling.
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\198\ See 83 FR 44762.
\199\ ``Cost and Performance Baseline for Fossil Energy Plants
Volume 1a: Bituminous Coal (PC) and Natural Gas to Electricity''
Rev. 3, DOE/NETL-2015/1723 (July 2015).
\200\ ``Leveraging Natural Gas: Technical Considerations for the
Conversion of Existing Coal-Fired Boilers'', Babcock Power Services,
Presented at 2014 ASME Power Conference (July 2014), Baltimore, MD.
Available in the rulemaking docket.
---------------------------------------------------------------------------
NGCC units have become the preferred option for intermediate and
baseload natural gas power generation. Other technologies (such as
simple cycle aeroderivative turbines) offer significant advantages for
peaking purposes in that they can start up quickly and require fewer
staff to operate. Some combination of aeroderivative turbines and
flexible combined cycle units offer advantages in both efficiency and
the flexibility to change loads when compared to utility boilers. For
these reasons, the power sector has moved away from the use of gas-
fired boilers. There have been no new natural gas-fired utility boilers
built since the 1980s.
There have been some cases where coal-fired utility boilers have
chosen to refuel (i.e., have chosen to convert to natural gas-firing).
In those cases, the motivation was largely to preserve reserve capacity
without investing in the air pollution controls needed to meet air
emission standards--especially MATS.\201\ The EPA examined fuel use
data submitted by plant owner/operators to the U.S. Energy Information
Administration (EIA) on Form 923.\202\ According to that data, there
were 131 natural gas-fired utility boilers \203\ in 2012 and 170 such
units in 2017. The average capacity factor for those units was only 11
percent in 2012 and 2017. Between 2012 (before the MATS compliance
date) and 2017 (after MATS was fully in effect), 39 utility boilers
converted from coal-fired units to become natural gas-fired utility
boilers. Those natural gas-fired utility boilers operated at an average
capacity factor of less than 10 percent, indicating that they were
likely utilized only during periods of high demand.
---------------------------------------------------------------------------
\201\ See 40 CFR part 63, subpart UUUUU.
\202\ Monthly fuel use data is submitted to the EIA on Form 923.
Available at https://www.eia.gov/electricity/data/eia923/. For
details of the EPA data analysis, see the memorandum ``2017 Fuel
Usage at Affected Coal-fired EGUs'' available in the rulemaking
Docket ID No. EPA-HQ-OAR-2017-0355.
\203\ Natural gas-fired utility boilers are those with capacity
of more than 25 MW that use more than 90 percent natural gas on a
heat input basis.
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These non-air quality health and environmental impacts and energy
requirements demonstrate that refueling is not the BSER.
c. Biomass Co-Firing
The EPA previously proposed that co-firing of biomass in coal-fired
utility boilers is not the BSER for existing fossil fuel-fired sources
due to cost and achievability considerations.\204\ Although biomass co-
firing methods are technically feasible and can be cost-effective for
some designated facilities, these factors and others (namely, that any
potential net reductions in emissions from biomass use occur outside of
the regulated source and are outside of the control of the designated
facility, which is incompatible with the interpretation of the EPA's
authority and the permissible scope of BSER as set forth in section II
above) are the considerations that prevent its adoption as the BSER for
the source category.
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\204\ See ACE proposal and 80 FR 64756.
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In the ACE proposal, the EPA sought comment on the inclusion of
forest-derived and non-forest biomass as non-BSER compliance options
for affected units to meet state plan standards.\205\ In response, the
EPA received comments both supporting and opposing the use of biomass
for compliance (as discussed in section III.F.2.b); however, commenters
also spoke to the appropriateness of including biomass firing as part
of the BSER. Some commenters noted that co-firing with biomass cannot
be a ``system of emission reduction'' as it increases CO2
emissions at the source. Commenters further asserted that the EPA has
failed to demonstrate how firing biomass meets the CAA section 111
requirements and the criteria for qualifying as a system of emission
reduction described in the Proposed Repeal and the ACE proposal.
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\205\ See 83 FR 44766.
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Upon consideration of comments and in accordance with the plain
language of CAA section 111 (discussed above in section II.B), the EPA
is now clarifying that biomass does not qualify as a system of emission
reduction that can be incorporated as part of, or in its entirety, as
the BSER. As described in section III.F.2 of this preamble. the BSER
determination must include systems of emission reduction that are
achievable at the source. While the firing of biomass occurs at a
designated facility, biomass firing in and of itself does not reduce
emissions of CO2 emitted from that source. Specifically,
when measuring stack emissions, combustion of biomass emits more mass
of emissions per Btu than that from combustion of fossil fuels, thereby
increasing CO2 emissions at the source. Recognition of any
potential CO2 emissions reductions associated with biomass
utilization at a designated facility relies on accounting for
activities not applied at and largely not under the control of that
source, including consideration of offsite terrestrial carbon effects
during biomass fuel growth, which are not a measure of emissions
performance at the level of the individual designated facility. Use of
biomass in affected units is therefore not consistent with the plain
meaning of ``standard of performance'' and cannot be considered as part
of the BSER.\206\
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\206\ Notwithstanding this conclusion in the context of CAA
section 111(d), the EPA believes that a PSD permitting authority may
still reach the conclusion that use of some type(s) of biomass is
BACT for greenhouse gases in the context of a PSD permit application
where the applicant proposes to use biomass, as discussed in the
EPA's Guidance for Determining Best Available Control Technology for
Reducing Carbon Dioxide Emissions from Bioenergy Production (March
2011). While biomass combustion may result in more greenhouse gas
emissions (in particular CO2) per unit of production than
combustion of fossil fuels, a comparative analysis of biomass and
other fuels may not be required in the BACT context. As EPA has
observed, ``where a proposed bioenergy facility can demonstrate that
utilizing a particular type of biogenic fuel is fundamental to the
primary purpose of the project, then at the first step of the top-
down process, permitting authorities can rely on that to determine
that use of another fuel would redefine the proposed source.''
Bioenergy BACT Guidance at 15. Moreover, even if biomass is compared
to fossil fuels and ranked lower at Step 3 of a top-down BACT
analysis, broader offsite environmental, economic, and energy
considerations related to biomass use (e.g., any potential offsite
net carbon sequestration associated with growth of the biomass
feedstock) may be considered in Step 4 of a top-down BACT analysis.
See Bioenergy BACT Guidance at 20-21. It is therefore consistent to
determine that the firing of biomass does not qualify as a
``standard of performance'' for setting or complying with the BSER
because it does not reduce the GHG emissions of a fossil fuel-fired
source, while also allowing the consideration of any potential
offsite environmental, economic, or energy attributes when
considering an application that treats biomass as BACT for a
proposed biomass facility in the PSD permitting context.
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Additionally, many commenters agreed with the ACE proposal that
biomass co-firing should not be part of the BSER because it is not
sufficiently cost-effective, there is not a reliable supply of biomass
fuel accessible nationally, co-firing with biomass has a negative
impact on unit heat rate, and co-firing requirements would ``redefine
the source.'' Many commenters supported inclusion of fuel co-firing as
a component of the BSER but focused primarily on argument for natural
gas co-firing (as discussed earlier). Some of these commenters
specifically asserted that biomass use is a widely available and proven
GHG reduction technology.
As discussed by the EPA previously in the ACE proposal and other
instances,\207\ biomass fuel use opportunities are dependent upon many
regional considerations and limitations--namely fuel supply proximity,
reliability and cost--that prevent its adoption as BSER on a national
level (whereas nearly all sources can or have implemented some form of
HRI measures). The infrastructure, proximity, and cost aspects of co-
firing biomass at existing
[[Page 32547]]
coal EGUs are similar in nature and concept to those of natural gas.
While there are a few existing coal-fired EGUs that currently co-fire
with biomass fuel, those are in relatively close proximity to cost-
effective biomass supplies. Therefore, even if biomass firing could be
considered a ``system of emission reduction,'' the EPA is not able to
include the use of biomass fuels as part of the BSER in this action due
to the current cost and achievability considerations and limitations
discussed above. Additional discussion on biomass is provided in
section III.F.2.b. below.
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\207\ See 80 FR 64756.
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d. Carbon Capture and Storage (CCS) \208\
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\208\ CCS is sometimes referred to as Carbon Capture and
Sequestration. It is also sometimes referred to as CCUS or Carbon
Capture Utilization and Storage (or Sequestration), where the
captured CO2 is utilized in some useful way and/or
permanently stored (for example, in conjunction with enhanced oil
recovery). In this document, the EPA considers these terms to be
interchangeable and for convenience will exclusively use the term
CCS.
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In the ACE proposal, the EPA noted that while CCS is an advanced
emission reduction technology that is currently under development, the
Agency must balance the promotion of innovative technologies against
their economic, energy, and non-air quality health and environmental
impacts. The EPA proposed that neither CCS nor partial CCS are
technologies that can be considered the BSER for existing fossil fuel-
fired EGUs and explicitly solicited comment on any new information
regarding the availability, applicability, costs, or technical
feasibility of CCS technologies.
Many commenters agreed with EPA's proposed finding that CCS
(including partial CCS) should not be part of the BSER. The commenters
stated that it is not adequately demonstrated, sufficiently cost-
effective, or nationally available. Other commenters disagreed and
claimed that CCS is technically feasible and adequately demonstrated
and should be part of BSER, asserting that the EPA has previously
provided evidence in the record during the 2016 denial of petitions for
reconsideration of the CPP that CCS had been successfully implemented
at power plants. Commenters also asserted that there are many vendors
that offer carbon capture technologies for power plants, which
demonstrates that the technology is commercially available and
adequately demonstrated.
CCS is a difficult and complicated process, requiring numerous
pieces of process equipment to capture CO2 from the exhaust
gas, compress it for transport, transport it in a CO2
pipeline, inject it, and then monitor the injection space to ensure the
CO2 remains stored. Currently there are only two large-scale
commercial applications of post-combustion CCS at a coal-fired power
plant--the Boundary Dam project in Saskatchewan, Canada and the Petra
Nova project at the W.A. Parish plant near Houston, Texas.\209\
Commenters noted that both of the demonstration projects were heavily
subsidized by government support and were able to generate additional
income from the sale of captured CO2 for enhanced oil
recovery (EOR) and, without these subsidies, neither project would have
been economically viable.
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\209\ Several commenters noted that the Petra Nova project
received funding from the U.S. Department of Energy (DOE) through
the Clean Coal Power Initiative and stated that the project is,
pursuant to section 402(i) of the Energy Policy Act of 2005
(EPAct05), therefore, precluded from being used to demonstrate that
the technology is ``adequately demonstrated'' under section 111 of
the CAA. Some commenters noted that the DOE funding was only for the
initial 60 MW slip-stream demonstration project, but the CCS project
at Petro Nova was later expanded to a 240 MW slip-stream and no
federal funding was received for this expansion.
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Commenters addressed the cost of installing CCS on an existing
coal-fired EGU and noted that it can be much costlier and more
technically challenging to retrofit the technology to an existing EGU
as compared to installation on a newly constructed unit (where the
system can be incorporated into the design and space allocation of the
new plant). Other commenters claimed that CCS can achieve significant
emission reductions (up to 90 percent), that there is opportunity for
some sources to generate income from the sale of captured
CO2, and that there are additional financial incentives from
the recently approved 2018 Internal Revenue Code (IRC) section 45Q tax
credits for stored CO2, so now CCS may be more cost-
effective than HRI options for some facilities. One commenter performed
modeling runs that included the section 45Q tax credit and found that,
for some sources, CCS would provide much greater emission reductions
than HRI options at a reasonable cost and concluded that the EPA should
include CCS as part of the BSER. Other commenters minimized the impact
of the section 45Q tax credit for a variety of reasons.
Several commenters claimed that access to appropriate
CO2 storage locations is critical to the feasibility and
cost of CCS. They described the geographic limitations of both deep
saline aquifers and depleted oil fields (EOR fields) noting that 15
states have little or no demonstrated storage capacity or have very
limited storage capacity and that EOR sites are similarly
geographically limited, with 19 states having little or no demonstrated
EOR opportunity. However, other commenters claimed that a technology
need not be feasible at every site to be a component of BSER especially
since the EPA is relying on site-specific analyses. The commenters
noted that not all HRI options are applicable to every source, so the
EPA cannot disregard CCS from the BSER options based on ``national
availability.''
Commenters noted that 60 GW (or about 20 percent) of the coal-fired
power plant capacity might be amenable to CCS based on locality and
that North America has widespread and abundant geologic storage options
with the capacity to sequester over 500 years of the U.S.'s current
energy-related CO2 emissions. Commenters claimed that 90
percent of existing coal-fired power plants are within 100 miles from
the center of a basin with adequate storage capacity and more than half
of the existing plants are less than 10 miles from the center of a
basin.
The EPA has considered all these public comments and has concluded
that, as proposed, CCS is not the BSER for emissions of CO2
from existing coal-fired EGUs--nor does it constitute a component of
the BSER, as some commenters have suggested. As discussed in section
III.E.1, above, concerning the ``guiding principles'' for identifying
the BSER under CAA section 111(d), the BSER is based on what is
adequately demonstrated and broadly achievable across the country.
Under CAA section 111(b)(1), the EPA determines ``standards of
performance'' for new sources and under section 111(d)(1), the states
determine ``standards of performance'' for existing sources within
their jurisdiction. Importantly, the term ``standard of performance''
is given a uniform definition under section 111(a)(1) for purposes of
both new and existing sources, and, in accordance with that definition,
the Administrator is required to determine the BSER as a predicate for
the standards of performance for both new and existing sources. In this
manner, the text and structure of section 111 indicate that the EPA
must make the BSER determination at the national, source-category
level. Thus, the EPA disagrees with the commenters who argue that
because the EPA is emphasizing that standard setting will be done on a
unit-by-unit (rather than fleetwide) basis, all viable emission
reduction options should be evaluated at the unit level.
Whereas HRI measures are broadly applicable to the entire existing
coal-
[[Page 32548]]
fired power plant fleet, the EPA determines that CCS or partial CCS is
not. The EPA agrees that there may be some existing coal-fired EGUs
that find the application of CCS to be technically feasible and an
economically viable control option, albeit only under very specific
circumstances. However, the high cost of CCS, including the high
capital costs of purchasing and installing CCS technology and the high
costs of operating it, including high parasitic load requirements,
prevent CCS or partial CCS from qualifying as BSER on a nationwide
basis.
According to the DOE National Energy Technology Laboratory (NETL),
the incremental cost from capital expenditures alone of installing
partial or full capture CCS \210\ on a new coal-fired EGU ranged from
$626 (for 16% capture) to $2,098 (for full capture) per kW (2011
dollars).\211\ These costs are for new CCS equipment installed on a new
facility, but they fairly represent the costs of new CCS equipment
installed on an existing facility; indeed, these costs are probably
lower than the actual costs of installing new CCS equipment on an
existing facility, because the costs of retrofitting pollution controls
on an existing facility generally are greater than the costs of
installing pollution controls on a new facility. In contrast, as noted
elsewhere, the cost of the HRI that constitute the BSER for this rule
range from $25-$47 per kW (2016 dollars). Thus, the costs of partial
CCS, considering only the capital costs and not the operating costs,
are far higher than--more than 13 times--the cost of what the EPA has
identified as the BSER.
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\210\ Full capture is considered to occur when 100 percent of
the flue gas is treated, resulting in a 90 percent reduction in
emissions of CO2 relative to a power plant without carbon capture.
\211\ ``Cost and Performance Baseline for Fossil Energy Plants
Supplement: Sensitivity to CO2 Capture Rate in Coal-Fired Power
Plants,'' une 22, 2015; DOE/NETL-2015/1720 https://www.netl.doe.gov/projects/files/[FR Doc.SupplementSensitivitytoCO2CaptureRatein[FR
Doc.CoalFiredPowerPlants_062215.pdf.
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Viewing the costs of CCS through other prisms yields the same
determination. According to NETL, the capital costs of a CCS system
with 90 percent capture increases the cost of a new coal-fired power
plant approximately 75 percent relative to the cost of constructing a
new coal-fired power plant without post-combustion control technology.
Furthermore, the additional auxiliary load required to support the CCS
system consumes approximately 20 percent of the power plant's potential
generation.\212\ The NETL Pulverized Coal Carbon Capture Retrofit
Database tool (April 2019) \213\ estimates that the operating costs of
existing coal-fired EGUs range from 22 to 44 $/MWh.\214\ The
incremental increase in generating costs, including the recovery of
capital costs over a 30-year period, due to CCS range from 56 to 77 $/
MWh.\215\ For reference, according to the EIA, the average electricity
price for all sectors in March of 2019 was 103.8 $/MWh.\216\ About 60
percent of these latter costs (60 $/MWh) are associated with generation
and 40 percent with transmission and distribution of the
electricity.\217\ Thus, the incremental increase in generating costs
due to CCS by itself would equal or exceed the average generation cost
of electricity for all sectors. The costs of partial CCS are less than
full CCS, but due to economies of scale, costs do not reduce as quickly
as reductions in the capture rate. For example, the capital costs of
treating only 18 percent of the flue gas (a 16 percent reduction in
emissions of CO2) are about 30 percent of the capital costs
of treating all of the flue gas (full capture or a 90 percent reduction
in emissions of CO2). Similarly, at full capture, treating
only 18 percent of the flue gas (a 16 percent reduction in emissions of
CO2) still increases the cost of electricity by about 28
percent of the increase that results from treating all of the flue
gas.\218\ Again, these costs are probably lower than the actual costs
of installing new CCS equipment on an existing facility. Not only are
these costs far higher than what the EPA has identified as the BSER,
they would almost certainly force the closure of the coal-fired power
plants that would be required to install them. Many of those plants
have a marginal profit margin, as demonstrated by the high rate of
plant closure and the relatively low amounts of operation (i.e.,
capacity factors) in recent years. Thus, these costs must be considered
exorbitant. See section III.E.1. for a discussion of the guiding
principles in determining the BSER.
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\212\ A CCS system requires both auxiliary steam and electricity
to operate. According to NETL, a full capture system consumes 53 MW
of direct electrical load and steam that could have otherwise been
used to generate approximately 86 MW of electricity.
\213\ https://www.netl.doe.gov/energy-analysis/details?id=2949.
\214\ Existing coal-fired power plants have generally already
paid off the initial construction (i.e., capital) expenses.
\215\ Variable operating costs represent approximately $15/MWh
and the remaining costs are recovered capital over a 30-year period.
The capital costs assume the power plant can recover the costs over
30 years. If the actual remaining useful life of the power plant
itself is less, the costs would be higher because the capital would
have to be recovered over a shorter time period. The average age of
the remaining coal fleet is approximately 42 years, and the average
age of retirement for coal-fired power plants is currently 54 years
(https://www.americaspower.org/wp-content/uploads/2018/03/Coal-Facts-August-31-2018.pdf). Therefore, a significant portion of the
existing coal-fired will likely retire in less than 30 years.
\216\ https://www.eia.gov/electricity/monthly/epm_table_grapher.php?t=epmt_5_6_a.
\217\ https://www.eia.gov/outlooks/aeo/data/browser/#/?id=8-AEO2019&cases=ref2019&sourcekey=0.
\218\ ``Cost and Performance Baseline for Fossil Energy Plants
Supplement: Sensitivity to CO2 Capture Rate in Coal-Fired
Power Plants,'' June 22, 2015; DOE/NETL-2015/1720.
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As noted above, the Boundary Dam project in Saskatchewan, Canada
and the Petra Nova project at the W.A. Parish plant near Houston, Texas
are the only large-scale commercial applications of post-combustion CCS
at a coal-fired power plant. They both have retrofit CCS or partial
CCS, and they both received significant governmental subsidies--
including, for the Petra Nova project, both direct federal grants from
the DOE through the Clean Coal Power Initiative and the IRC section 45Q
tax credits--and relied on nearby EOR opportunities. Due to the high
costs of CCS, all of these subsidies and EOR opportunities were
essential to the commercial viability of each project.\219\
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\219\ The EPA discussed the government funding and the EOR
revenue from the transport of captured CO2 to the
Hilcorp's West Ranch Oil Field in ``Standards of Performance for
Greenhouse Gas Emissions from New, Modified, and Reconstructed
Stationary Sources: Electric Generating Units,'' 80 FR 64510, 64551
(October 23, 2015).
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Some commenters have asserted that the costs of CCS are reasonable
and explain, as a central part of their assertion, that the
availability of tax credits under section 45Q, as revised by the
Bipartisan Budget Act of 2018, significantly lowers the costs of CCS.
In fact, they have asserted, that the tax credits, which have an
initial value of $35 per tonne (i.e., metric ton) for CO2
stored through EOR, offset about 70% of the cost of CCS, with EOR
offsetting the rest.\220\ However, the section 45Q tax credits are
limited in time: The credit for equipment placed in service after the
date of enactment of the Bipartisan Budget Act of 2018 is available, in
general, only for facilities and equipment for which construction
begins before January 1, 2024. IRC section 45Q(d)(1). Under the present
rule, state plans are not required to be submitted until mid-2022 and
the states have the authority to determine their sources' compliance
schedule; compliance schedules are generally expected to last 24 months
(i.e., until mid-2024), but could in some instances be longer, as noted
in preamble section
[[Page 32549]]
III.F.1.a.(2).\221\ In order for sources to implement CCS and be able
to rely on the 45Q tax credit, they would have to complete all
planning, including arranging all financing, preconstruction
permitting, and commence construction within about 18 months (by
December 31, 2023) of the state plan submittal. The EPA considers that
timetable to be impracticably short for most sources, considering the
complexity of implementation of CCS. In addition, the tax credit is, in
general, available only for the 12-year period beginning on the date
the equipment is originally placed in service. IRC section 45Q(a)(3)-
(4). Thus, it would not be available to offset much of the capital
costs of the CCS systems that are recovered over a 30-year period.\222\
Further, like any federal income tax credit, the 45Q tax credits do not
provide a benefit to a company that does not owe federal income tax,
and thus it may not benefit some coal-fired power plant owners.
Accordingly, the 45Q tax credits cannot be considered to offset the
high costs of CCS for the industry as a whole. While nearby EOR
opportunities are available for some EGUs, they alone cannot offset the
high costs of CCS, as is evident from the comments discussed above.
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\220\ EPA-HQ-OAR-2017-0355-24266 at 18.
\221\ By comparison, the implementation period for the CPP began
three years after the state plan submittal. See 80 FR at 64669.
\222\ The NETL Pulverized Coal Carbon Capture Retrofit Database
tool (April 2019) defaults to a capital recovery factor based on 30
years. Capital recovery factors based on 10 and 20 years are also
selectable. If shorter periods are selected, the $/MWh for capital
recovery would be higher. Table 10-12 of The Integrated Planning
Model (version 6) uses a 15-year capital recovery factor for
environmental retrofits, https://www.epa.gov/sites/production/files/2019-03/documents/chapter_10.pdf. Recovering costs over a 12-year
period, as opposed to a 30-year period, increased the capital
recovery factor by 40 percent.
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In addition, nearby EOR opportunities are not available for many
EGUs, which, as a result, would incur higher costs for constructing and
operating pipelines to transport CO2 long distances.
Throughout the country, 29 states are identified as having oil
reservoirs amenable to EOR, of which only 12 states have active EOR
operations.\223\ The vast majority of EOR is conducted in oil
reservoirs in the Permian Basin, which extends through southwest Texas
and southeast New Mexico. States where EOR is utilized include Alabama,
Arkansas, Colorado, Louisiana, Michigan, Mississippi, Montana, New
Mexico, Oklahoma, Texas, Utah, and Wyoming, whereas coal-fired
generation capacity is located across the country.\224\ For example,
Georgia, Minnesota, Missouri, Nevada, North Carolina, South Carolina,
and Wisconsin have coal-fired generation capacity but do not have oil
reservoirs that have been identified as amenable for EOR. In addition,
some of the states with the largest amounts of coal-fired generation
capacity have no active EOR operations, including Illinois, Indiana,
Kentucky, Ohio, Pennsylvania, Tennessee, Virginia, and West Virginia.
Even in states that are identified as having potential oil and gas
storage capacity, the amount of storage resource varies by state. In
some states, the total oil and gas storage resource is smaller than the
annual energy-related CO2 emissions from coal, including
Indiana and Virginia.\225\ The limited geographic availability of EOR,
and the consequent high costs of CCS for much of the coal fleet, by
itself means that CCS cannot be considered to be available across the
existing coal fleet.
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\223\ The United States 2012 Carbon Utilization and Storage
Atlas, Fourth Edition, U.S. Department of Energy, Office of Fossil
Energy, National Energy Technology Laboratory (NETL) and EPA
Greenhouse Gas Reporting Program, see https://www.epa.gov/ghgreporting.
\224\ U.S. Energy Information Administration, Electric Power
Annual 2017, see https://www.eia.gov/electricity/annual/pdf/epa.pdf.
\225\ The United States 2012 Carbon Utilization and Storage
Atlas, Fourth Edition, U.S. Department of Energy, Office of Fossil
Energy, National Energy Technology Laboratory (NETL) and U.S. Energy
Information Administration, Energy-Related Carbon Dioxide Emissions
by State, 2005-2016, see https://www.eia.gov/environment/emissions/state/analysis/.
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The high costs of CCS inform the Administrator's determination that
this technology is not BSER. Some commenters have suggested that CCS be
treated as BSER for some facilities on a unit-by-unit basis, but the
EPA believes that this would be inconsistent with its role under
section 111(a)(1) to determine as a general matter what is the BSER
that has been adequately demonstrated, taking into account, among other
factors, cost. To treat CCS as BSER for a handful of facilities would
result in those facilities becoming subject to high costs from CCS--
potentially much higher than those imposed on other facilities for whom
CCS is not treated as BSER. This potential disparate impact of costs is
inconsistent with the Administrator's role in determining BSER and is
another reason why the Administrator is finalizing a determination that
CCS is not BSER.
Nevertheless, while many commenters argued that CCS should not be
considered part of the BSER, they supported its use as a potential
compliance option for meeting an individual unit's standard of
performance. The EPA agrees with this assessment. Evaluation of the
technical feasibility (e.g., space considerations, integration issues,
etc.) and the economic viability (e.g., the prospects and availability
of long-term contractual arrangements for sale of captured
CO2, the cost of constructing a CO2 pipeline, the
availability of tax credits, etc.) of a CCS project is heavily
dependent on source-specific characteristics. Accordingly, state plans
may authorize such projects for compliance with this rule.
F. State Plan Development
1. Establishing Standards of Performance
CAA sections 111(d)(1) and 111(a)(1) collectively establish and
define certain roles and responsibilities for the EPA and the states.
As discussed in section III.B above, the EPA has the authority and
responsibility to determine the BSER. CAA section 111(d)(1) clearly
contemplates that states will submit plans that establish standards of
performance for designated facilities (i.e., existing sources).
States have broad flexibility in setting standards of performance
for designated facilities. However, there is a fundamental obligation
under CAA section 111(d) that standards of performance reflect the
degree of emission limitation achievable through the application of the
BSER, which derives from the definition for purposes of section 111 of
``standard of performance'' in those terms, with no distinction made
between new-source and existing-source standards. In establishing such
standards of performance, the statute expressly provides that states
may consider a source's remaining useful life and other factors.
Accordingly, based on both the mandatory and discretionary aspects of
CAA section 111(d), a certain level of process is required of state
plans: Namely, they must demonstrate the application of the BSER in
establishing a standard of performance, and if the state chooses, the
consideration of remaining useful life and other factors in applying a
standard of performance to a designated facility. The EPA anticipates
that states can correspondingly establish standards of performance by
performing two sequential steps, or alternatively, as further described
later in this section, by performing these two steps simultaneously.
The two steps to establish standards of performance are: (1) Reflect
the degree of emission limitation achievable through application of the
BSER, and, if the state chooses, (2) consider the remaining useful life
and other source-specific factors.
[[Page 32550]]
If a state chooses to develop standards of performance through a
sequential (i.e., two step) process, the state would as the first step
apply the BSER to a designated facility's emission performance (e.g.,
the average emission rate from the previous three years or a projected
emission rate under specific conditions such as load) and calculate the
resulting emission rate. In this step, states fulfill the obligation
that standards of performance reflect the degree of emission limitation
achievable by evaluating the applicability of each of the candidate
technologies that comprise the BSER to a specific designated facility
and calculating a corresponding standard of performance based on the
application of all candidate technologies that the state determines are
applicable to the specific designated facility. A state may determine
the most appropriate methodology to calculate a standard of performance
(which for purposes of this regulation will be in the form of an
emission rate, as further described in section III.F.1.c. of this
preamble) by applying the BSER to a designated facility based on the
characteristics of the specific source (e.g., load assumptions and
compliance timelines). For example, a state can start with the average
emission rate of a particular designated facility and adjust it to
reflect the application of each candidate technology and the associated
emission rate reduction.
As the second step, under this two-step, sequential process
approach, after the state calculates the emission rate that reflects
application of the BSER, the state may adjust that rate by considering
the remaining useful life of the designated facility and other source-
specific factors. It should be noted that the state is not required to
take this second step and consider remaining useful life and other
factors. Rather, the state has the discretion to do so. A discussion on
how a state can consider remaining useful life and other factors, if it
so chooses, can be found in section III.F.1.b. below. States also have
the discretion to apply a specific standard of performance to a group
of existing sources within their jurisdiction, or to all existing
sources within their jurisdiction.
As just described, the EPA believes it would be reasonable for
states to follow a sequential two-step process to establish standards
of performance. However, a state may develop its own process for
calculating standards of performance outside of this two-step process,
such as a hybridized approach which blends the two sequential steps
into one combined step, so long as the state plan submission
demonstrates application of the BSER in determining each standard of
performance, (i.e., evaluation of applicability of each and all
candidate technologies to each designated facility). For example, if a
state determines that the designated facility is able to implement only
four of the six candidate technologies (due to the remaining useful
life or other factors), the state is required to demonstrate in its
plan submission that it in fact considered the two remaining candidate
technologies in making this determination.
For the two-step approach, a state could do this by explaining in
its plan submission that it considered the application of each of the
candidate technologies in the first instance, but in the second step
the state determined that the two candidate technologies should not be
part of the methodology to calculate the EGU's standard of performance
because of remaining useful life or other factors. The state should
additionally provide a rationale for why and how it considered
remaining useful life and other factors to discount a particular
candidate technology from the calculation of a standard of performance
(e.g., by explaining that such technology has already been implemented
by a particular source).
For a hybridized approach, when the state is applying the BSER and
determining the emission reductions associated with the candidate
technologies for a specific designated facility, it may be readily
apparent that two of the candidate technologies are not reasonable to
install because, for example, those technologies have recently been
updated at the unit, independent of this final rule. This hybridized
approach, which blends application of the BSER and associated
stringency with consideration of remaining useful life and other
factors in one step to calculate a standard of performance, may be
appropriate provided that the state plan clearly demonstrates the
standard of performance (expressed as a degree of emission limitation)
that would result from application of the BSER and provides a rationale
for why and how remaining useful life and other factors were considered
to discount a particular candidate technology from the calculation of a
standard of performance. This is one illustrative way in which states
can demonstrate, in establishing a standard of performance, that they
have both fulfilled their obligation to apply the degree of emission
limitation achievable through the BSER to each designated facility and
also properly invoked their discretion in considering remaining useful
life and other factors.
In this section of the preamble, the EPA addresses discrete aspects
of the standard-setting process. It is intended to provide states
clarity and direction on each of these aspects to assist the states in
developing standards of performance. The EPA is not requiring a
specific method for states to develop standards of performance.
a. Application of the BSER
As described in other parts of this section, while the EPA's role
is to determine the BSER, CAA section 111(d)(1) squarely places the
responsibility of establishing a standard of performance for an
existing designated facility on the state as part of developing a state
plan. This final rule requires states to evaluate the applicability of
each of the candidate technologies (HRI measures) that the EPA has
determined constitute the BSER in establishing a standard of
performance for each designated facility within their jurisdiction. The
BSER is a list of candidate technologies that are HRI measures, which
states will evaluate and apply to existing sources, establishing a
standard of performance that is appropriately tailored to each existing
source.\226\ In establishing a standard of performance, a state may
consider remaining useful life and other factors as appropriate based
upon the specific characteristics of those units. In general, the EPA
envisions that the states would set standards based on considerations
most appropriate to individual sources or groups of sources (e.g.,
subcategories). These may include consideration of historical emission
rates, effect of potential HRIs (informed by the information in the
EPA's candidate technologies described earlier in section III.E), or
changes in operation of the units, among other factors the state
believes are relevant. As such, states have considerable flexibility in
determining standards of performance for units, as contemplated by the
express statutory text.
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\226\ Because the candidate technologies that comprise the BSER
can, at least in some cases, be applied in combination at an
individual source, states should evaluate both individual candidate
technologies and combinations of candidate technologies to
appropriately establish standards of performance.
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States have discretion to apply the same standard of performance to
groups of existing sources within their jurisdiction, as long as they
provide a sufficient explanation for this choice and a demonstration
that this approach will result in standards of performance achievable
at the sources. But states also
[[Page 32551]]
have discretion, expressly conferred on them by Congress in CAA section
111(d), to take into account a source's remaining useful life and other
factors when establishing a standard of performance of that source, and
much of the discussion in this final rule relates to the nature of that
discretion and the factors that should influence states' exercise of
it. As the EPA described in the proposal and as commenters have
verified, the fleet of coal-fired EGUs is diverse and each EGU has been
designed and engineered uniquely to fit the need at the time of
construction. Because each coal-fired steam boiler subject to this rule
has been designed, maintained, utilized, and upgraded uniquely, each
designated facility has a unique set of circumstances with a set of
source-specific factors governing its use. The outgrowth of the
abundance of source-specific factors has led the EPA to determine that
a tailored standard of performance (developed by states) that considers
those factors can achieve emission reductions in the fleet without
making broad assumptions about the fleet that may not be applicable to
a particular unit. The source-specific circumstances at each EGU causes
considerable variation in average emission rates across the fleet. If a
single standard of performance (i.e., a single degree of emission
limitation resulting from a particular technology or fixed set of
technologies) were to be applied to the entire fleet, the result could
be either that a large portion of the fleet would not be required to
achieve any meaningful emission reductions, or a large portion of the
fleet would face overly stringent requirements. The goal of these
emission guidelines is not to burden or shut down coal-fired EGUs--
which could compromise the stability of the power sector and thus
energy reliability to consumers, concerns which the EPA expresses,
informed by, among other factors, Congress's direction to take into
account energy requirements in determining BSER--as coal-fired EGUs
still have considerable viability as part of the power sector.
When states apply the BSER's candidate technologies to a designated
facility, the application of each technology and the associated degree
of emission limitation achievable by such application will entail
source-specific determinations. For this reason, in Table 1, the EPA
provided the degree of emission limitation achievable through
application of the BSER in the form of ranges, which capture the
reductions and costs that the EPA expects to approximate the outcome of
the application. The degree of emission limitation achievable through
application of the BSER (i.e., the ranges of improvements in Table 1)
should be used by the states in establishing a standard of performance;
however, the standard of performance calculated for a specific
designated facility may ultimately reflect a degree of emission
limitation achievable through application of the BSER outside of the
EPA's ranges because of consideration of source-specific factors. If a
state uses the sequential two-step process to establish a standard of
performance, in the first step the EPA expects that the state will use
the range of improvements for each candidate technology (and
combinations thereof where technically feasible) to develop a standard
of performance for a designated facility (the range of costs can be
used in the second step which considers the remaining useful life and
other factors as discussed in section III.F.1.b.). The ranges of HRI in
section III.E are typical of an EGU operating under normal conditions.
While a source with typical operating conditions (assuming no
consideration of remaining useful life or other factors) will have a
standard of performance with an expected improvement in performance
within the ranges in Table 1, there may be source-specific conditions
that cause the actual HRI of the applied candidate technology to fall
outside the range. For example, if a designated facility had installed
a new boiler feed pump just prior to a state's evaluation of the
designated facility, the application of that candidate technology would
yield negligible improvement in the heat rate and thus the value would
fall outside the ranges provided by the EPA (i.e., because the
technology has already been applied and the baseline emission rate
reflects that). As with the application of all the candidate
technologies, the state plan submission must identify: (1) The value of
HRI (i.e., the degree of emission limitation achievable through
application of the BSER) for the standard of performance established
for each designated facility; (2) the calculation/methodology used to
derive such value; and (3) any relevant explanation of the calculation
that can help the EPA to assess the plan. In explaining the value of
HRI that has been calculated, if the value of the HRI falls within the
range identified by the EPA for a particular candidate technology, a
state may note as such as part of its explanation. If a resulting value
of HRI falls outside the range provided by the EPA, the state should in
its state plan submission explain why this is the case based on
application of the candidate technology to a particular source. In any
instance, the state plan submission must identify the value of HRI that
has been calculated and the calculation used to derive the value of
HRI, and explain both. The states will thus use the information
provided by the EPA, but will be expected to conduct source-specific
evaluations of HRI potential, technical feasibility, and applicability
for each of the BSER candidate technologies. After a state applies the
candidate technologies to a designated facility (i.e., step one), it
can consider the remaining useful life and other factors associated
with the source and determine whether it is cost-reasonable to actually
implement that technology at the source (i.e., step two). This is
described in detail below in section III.F.1.b.
The approach to require states to tailor standards of performance
for designated facilities is both consistent with the framework of
cooperative-federalism envisioned under CAA section 111(d), and the new
implementing regulations for CAA section 111(d).\227\ The new
implementing regulations at40 CFR 60.21a(e) and 60.22a(b)(2) and (4)
require emission guidelines to reflect, and contain information on, the
degree of emission limitation achievable through the application of the
BSER. By providing the BSER and the associated level of stringency in
the form of HRIs and associated range of heat rate improvements, the
EPA is thus meeting applicable statutory and regulatory requirements
and is giving states the necessary information and direction to
establish standards of performance for existing sources that reflect
the degree of emission limitation achievable through application of the
BSER.\228\
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\227\ See 83 FR 44746.
\228\ By providing the BSER and level of stringency associated
with the BSER, ACE meets the applicable requirements of the new
implementing regulations at 40 CFR part 60, subpart Ba, regarding
the contents of an emission guideline. An ``emission guideline'' is
defined under 40 CFR 60.21a(e) as a ``final guideline document''
which must contain certain items enumerated under 40 CFR 60.22a. The
preamble, regulatory text, and record for ACE comprise the ``final
guideline document'' referenced as the emission guideline.
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(1) Variable Emission Performance
The Agency received comments that there is considerable variation
in emissions between designated facilities within the industry, as well
as considerable variation of emissions for individual units based on
the operating conditions. Commenters expressed concern that the degree
of emission limitation achievable through the application of the BSER
is similar to the
[[Page 32552]]
magnitude in the variation in the emission rate at a specific EGU due
to different operating conditions (e.g., the operating load of the
EGU). Commenters contend that because of this similarity, a designated
facility could fall out of compliance with its standard of performance
if its operating conditions change despite the source's having
installed/applied all of the candidate technologies.
Commenters further stated that oftentimes the operation of a
designated facility is not in the control of the owner/operator when it
goes to load and cycling, and because of that the emission rate varies
based on circumstances that are outside of the designated facility's
control. The commenters further state that they should not be held
accountable to standards that are not reflective of this lack of
control and variability. The EPA acknowledges commenters' concerns
about variability among designated facilities and variability of
emission performance at an individual designated facility, and believes
the flexibilities provided for states in establishing standards of
performance, as described in this section, are sufficient to
accommodate these variables. In establishing standards of performance,
states can consider the two distinct types of variable emission
performance \229\ (i.e., variation between different facilities and
variation of emissions at one facility at different times) and states
can tailor standards of performance accordingly.
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\229\ In this context, variable emission performance is a result
of underlying variability in heat rate, as emissions of
CO2 from EGUs are proportional to the unit's heat rate
performance.
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First, standards of performance should acknowledge and reflect
variability across EGUs due to unit-specific characteristics and
factors, including, but not limited to, boiler-type, size, etc. By
allowing states to establish standards of performance for individual
designated facilities (in accordance with the statute's text and
structure which provides that states in their plans shall establish
standards of performance for existing sources), the EPA expects that
standards of performance will inherently account for unit-specific
characteristics.\230\ By applying the BSER to individual designated
facilities within the state, standards of performance would account for
unit-specific characteristics such as unit design, historical operation
and maintenance. As further described in section III.F.1.b, states may
also account for anticipated future design and/or operating plans--such
as plans to operate as baseload or load following electricity
generators.
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\230\ Note that for administrative efficiency in developing a
state plan, a state may be able to calculate a uniform standard of
performance that reflects application of the BSER for a group of
designated facilities rather than performing the same calculation
multiple times for multiple individual sources if the group of
sources has similar characteristics such that application of BSER
would be consistent between the EGUs. This final rule does not
necessarily require a state to provide a discrete calculation and
separate standard of performance for each designated facility within
a group of similar designated facilities, but if a state chooses to
calculate a uniform rate for such a group of sources the plan
submission should explain how the uniform rate reflects application
of the BSER for all of the units in the group (e.g., because of
similar operating characteristics). Additionally, even if the same
emission rate is calculated for designated facilities at different
facilities that are included in such a group, such standard is
applicable to each individual designated facility, and each source
would be required to meet that standard by implementing ACE
requirements separately, consistent with the state plan requirements
described in section III.F.2 of this rule.
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Second, standards of performance should reflect variability in
emission performance at an individual designated facility due to
changes in operating conditions. Specifically, the agency believes it
would be appropriate for states to identify key factors that influence
unit-level emission performance (e.g., load, maintenance schedules, and
weather) and to establish emission standards that vary in accordance
with those factors. In other words, states could establish standards of
performance for an individual EGU that vary (i.e., differ) as factors
underlying emission performance vary. For example, states could
identify load segments (ranges of EGU load operation) that reflect
consistent emission performance within the segment and varying emission
performance between segments. States could then establish standards of
performance for an EGU that differ by load segment.
Another possible option to account for variable emissions is to set
standards of performance based on a standard set of conditions. A state
could establish a baseline of performance of a unit at specific load
and operational conditions and then set a standard against those
conditions via the application of the BSER. Compliance for the unit
could be demonstrated annually (or by another increment of time if
appropriate based on the level of stringency of the standard of
performance set for the unit) at those same conditions. In the interim,
between the demonstration of compliance under standardized conditions,
a state could allow for the maintenance and demonstration of fully
operational candidate technologies to be a method to demonstrate
compliance as the standard of performance must apply at all times.
The Agency believes that these approaches to providing flexibility
(and possible others not described here) in establishing standards of
performance are reasonable and appropriate by accounting for innate
variable emission performance across EGUs and at specific EGUs while
also limiting this flexibility to instances in which underlying
variable factors are evaluated and linked to variable emission
performance.
(2) Compliance Timelines
Additionally, the new implementing regulations require that
emission guidelines identify information such as a timeline for
compliance with standards of performance that reflect the application
of the BSER.\231\ However, given the source-specific nature of these
emission guidelines and the reasonably anticipated variation between
standards established for sources within a state, the EPA believes it
more appropriate that a state establish tailored compliance deadlines
for its sources based on the standard ultimately determined for each
source. Accordingly, the EPA is superseding this aspect of 40 CFR
60.22a for purposes of ACE, as allowed under the applicability
provision in the new implementing regulations under 60.20a and allowing
for states to include an appropriate compliance deadline for each
designated facility based on its standard of performance determined as
part of the state plan process. It is important that states consider
compliance timelines that are consistent with the application of the
BSER to ensure that the compliance timeline does not undermine the BSER
determination made by the EPA. For most states, the EPA anticipates
initial compliance to be achieved by sources within twenty-four months
of the state plan submittal. If a state chooses to include a compliance
schedule (because of source-specific factors) for a source that extends
more than twenty-four months from the submittal of the state plan, the
plan must also include legally enforceable increments of progress for
that source \232\). The EPA does not envision that most states will be
using increments of progress leading up to initial compliance. However,
as with the consideration of other source-specific factors, where a
state does choose to provide for a source to comply on a longer
timeframe than twenty-four months and to employ legally enforceable
increments of progress
[[Page 32553]]
along the way, the state should include in its state plan submission to
the EPA an adequate justification for why that approach is warranted.
The level of stringency can be compromised if a compliance schedule
does not adequately reflect the BSER determination.
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\231\ See 40 CFR 60.22a.
\232\ See 40 CFR 60.24a(d).
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Several commenters requested clarity on when standards of
performance must become effective (i.e., when must designated
facilities comply with their standards of performance) once a state
plan has been submitted but not yet approved by the EPA. The contents
of a state plan submission, such as standards of performance and
related requirements, are not effective or enforceable under federal
law until they are approved by the EPA. However, state plan
requirements must be fully adopted as a matter of state law, or issued
as a permit, order, or consent agreement, before the plan is submitted
to the EPA (and therefore could be enforceable as a matter of state
law, depending on when the state has chosen to make such requirements
effective).\233\ The EPA anticipates that in determining an appropriate
compliance schedule (and more specifically the initial compliance) for
designated facilities, a state will consider the anticipated timing of
review of the state's plan by the EPA and what sources may need to do
in the interim in order to assure ultimate compliance with their
standards of performance while EPA is in the process of reviewing the
plan.
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\233\ 40 CFR 60.23a, 60.27a(g)(2)(iii).
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States also have discretion in establishing a compliance schedule
for designated facilities, but the Agency urges states to use caution
as to not undermine the BSER by the determined schedules. Most programs
under CAA section 111 do not have compliance timelines greater than a
year and the Agency believes that is a good indicator for states to
take into consideration determining compliances schedules. Much of how
a compliance schedule is structured can be based on how the standard of
performance is structured. In section III.F.1.a.(1) there is a
discussion about how a state might account for variable emissions. One
of the options is to set a standard of performance under standardized
conditions to take into account many of the factors that can lead to
variable emissions from a designated facility. The standardized
conditions (e.g., load, ambient temperature, humidity etc.) that apply
to the standard of performance must also be met when there is a
compliance demonstration. Because these standardized conditions are not
maintained throughout a compliance period, the segmented nature of
demonstrating compliance could mirror the compliance schedule. For
example, a designated facility could have a monthly demonstration under
standardized conditions that mirrors a monthly compliance schedule.
This is one example to illustrate how a standard of performance can
align with a compliance schedule.
Another consideration for states in establishing standards of
performance is the emission averaging time (e.g., the amount of time
that a designated facility may average its emission rate). As described
above in section III.F.1.a.(1), EGUs may have considerably variable
emissions due to numerous operating factors. A method to account for
seasonal variability is to average a designated facility's emission
rate over the course of multiple seasons.
b. Consideration of Remaining Useful Life and Other Factors
CAA section 111(d) requires, in part, that the EPA ``shall permit
the State in applying a standard of performance to any particular
source under a plan submitted under [CAA section 111(d)] to take into
consideration, among other factors, the remaining useful life of the
existing source to which such standard applies.'' Consistent with the
requirements of this provision, the EPA is permitting states to
consider remaining useful life and other factors in establishing a
standard of performance for a particular source in this final rule.
States may do this in several ways. If a state is following the
sequential two-step process, the state would first apply all of the
candidate technologies to a designated facility to derive a standard of
performance with consideration to the EGU's historical or projected
performance, as previously described in section III.F.1.a. In the
second step of this process, the state would consider the ``remaining
useful life and other factors'' for the EGU and develop a standard of
performance accordingly. It should be noted that the consideration of
remaining useful life and other factors is a discretionary step for
states. If a state were to establish a standard of performance for a
designated facility based solely on the application of the BSER, it
would be reasonable to do so and not precluded under the statute.
The CAA explicitly provided under CAA section 111(d)(1) that states
could, under appropriate circumstances, establish standards of
performance that are less stringent than the standard that would result
from a direct application of the BSER identified by the EPA. CAA
section 111(d)(1) achieves this goal by authorizing a state, in
applying a standard of performance, to take into account a source's
remaining useful life and other source-specific factors. As such, the
EPA is promulgating, as part of the new implementing regulations at 40
CFR 60.20a-29a, a provision to permit states to take into account
remaining useful life, among other factors, in establishing a standard
of performance for a particular designated facility, consistent with
CAA section 111(d)(1)(B). The new implementing regulations (also
consistent with the previous implementing regulations) give meaning to
CAA section 111(d)(1)(B)'s reference to ``other factors'' by
identifying the following as a nonexclusive list of several factors
states may consider in establishing a standard of performances:
Unreasonable cost of control resulting from plant age,
location, or basic process design;
Physical impossibility of installing necessary control
equipment; or
Other factors specific to the facility (or class of
facilities) that make application of a less stringent standard or final
compliance time significantly more reasonable.
Given that there are unique attributes and aspects of each
designated facility, there are important factors that influence
decisions to invest in technologies to meet a potential standard of
performance. These include factors not enumerated in the list provided
above, including timing considerations like expected life of the
source, payback period for investments, the timing of regulatory
requirements, and other source-specific criteria. The state may find
that there are space or other physical barriers to implementing certain
HRIs at specific units. Alternatively, the state may find that some HRI
options are either not applicable or have already been implemented at
certain units. The EPA understands that many of these ``other factors''
that can affect the application of the BSER candidate technologies
distill down to a consideration of cost. Applying a specific candidate
technology at a designated facility can be a unit-by-unit determination
that weighs the value of both the cost of installation and the
CO2 reductions.
The EPA received comment on the ACE proposal that the EPA should
provide more information and guidance for what could be considered
``other factors'' in addition to the considerations of the remaining
useful life. In addition, commenters also requested more information on
the remaining useful life and other source-
[[Page 32554]]
specific factors that could be considered in developing a standard of
performance. The EPA acknowledges that there are a host of things that
could be considered ``other factors'' by states that can be used to
develop a standard of performance. While the EPA cannot identify every
set of circumstances and factors that a state could consider, the EPA
agrees with the commenters that it would be helpful for states if the
EPA were to provide a non-exhaustive set of qualitative examples that
states could consider in developing standards of performance as
described below. The EPA will evaluate each standard of performance and
the factors that were considered in the development of the standard of
performance on a case by case basis. The state should include all of
the factors and how the factors were applied for each standard of
performance in the state plan. The EPA received many notable comments
that states would like more direction and assistance in developing
standards of performance. The examples are intended to help provide
this assistance, but the EPA also understands that, because there are
so many considerations for each source, states might have further
questions while developing plans. States are encouraged to reach out to
the Agency during the development of plans for further assistance.
As noted above, the consideration of the remaining useful life and
other factors most often is a reflection of cost. When the EPA
determines the BSER for a source category, the EPA typically considers
factors such as cost relative to assumptions about a typical unit.
Because the costs evaluated for the BSER determination are relative to
a typical unit, the source-specific conditions of any particular
existing designated facility that a state will evaluate in developing
its plan under CAA section 111(d) are not inherently considered. A
state's consideration of the remaining useful life and other factors
will reflect the costs associated with the source-specific conditions.
As part of the BSER determination, the EPA has provided a range of
costs associated with each candidate technology (see Table 1). These
costs are provided to serve as an indicator for states to determine
whether it is cost-reasonable for the candidate technology to be
installed. These cost ranges are certainly not intended to be
presumptive (i.e., the ranges are not an accurate representation for
each designated facility and should not be used without a justified
analysis by the state), but rather are provided as guide-posts to
states. If a state considers the remaining useful life and/or other
factors in determining a standard of performance, the state is required
to describe, justify, and quantify how the considerations were made in
its plan. Because these considerations are discretionary and source-
specific, the burden is on the state in its plan to demonstrate and
justify how they were taken into account.
A state might consider the remaining useful life of a designated
facility with a retirement date in the near future by a number of ways
in the standard setting process. One way that a state may take into
account this circumstance is in applying the BSER (either through the
sequential, two-step process or through some other method that reflects
application of the BSER), establish a standard that ultimately only
applies the less costly BSER technologies in the development of the
standard of performance that the state establishes for the particular
designated facility. The shorter life of the designated facility will
generally increase the cost of control because the time to amortize
capital costs is less. Another outcome of a state's evaluation of a
designated facility's remaining useful life may lead to the state
setting a ``business as usual'' standard. This could be an appropriate
outcome where the remaining useful life of the designated facility is
so short that imposing any costs on the EGU is unreasonable. Because a
state plan must establish standards of performance for ``any''
designated facility under CAA section 111(d), the standard applied to
this designated facility would reflect ``business as usual'' and
require the unit to perform at its current level of efficiency during
the remainder of its useful life. Under all of these examples and under
any other circumstance in which a state considers remaining useful life
or other factors in establishing a standard of performance, the state
must describe in its state plan submission such consideration and
ensure it has established a standard for every designated facility
within the state, even one with an anticipated near-term retirement
date.
Another consideration for a state in setting standards of
performance with consideration to the remaining useful life and other
factors is how the different candidate technologies interact with one
another and how they interact with the current system at a designated
facility. Commenters have expressed, and the EPA agrees, that the
application of efficiency upgrades at EGUs are not necessarily
additive. Installing HRI technologies in parallel with one another may
mitigate the effects of one or more of the technologies. While states
must apply the BSER and the degree of emission limitation achievable
through such application in calculating a standard of performance,
states may also consider the mitigating effects on the emission
reductions that would result from the installation of a particular
candidate technology, and may as a result of this consideration
determine that installing that particular candidate technology at a
particular source is not reasonable. This consideration is authorized
as one of the ``other factors'' that states may consider in
establishing a standard of performance under CAA section 111(d)(1) and
the new implementing regulations under 40 CFR 60.24a(e).
A prime example of an ``other factor'' is ruling out the
reapplication of a candidate technology. The EPA anticipates this to be
a part of many state plans. In this scenario, a designated facility
recently applied one of the candidate technologies prior to the time
ACE becomes applicable. To require that designated facility to update
that candidate technology again, as a result of ACE, would not be
reasonable because the costs will be significant with marginal, if any,
heat rate improvement.
As described in section III.F.1.c., states are obligated to set
rate-based standards of performance. These will generally be in the
form of the mass of carbon dioxide emitted per unit of energy (for
example pounds of CO2 per megawatt-hour or lb/MWh). The
emission rate can be expressed as either a net output-based standard or
as a gross output-based standard, and states have the discretion to set
standards of performance in either form. The difference between net and
gross generation is the electricity used at a plant to operate
auxiliary equipment such as fans, pumps, motors, and pollution control
devices. The gross generation is the total energy produced, while the
net generation is the total energy produced minus the energy needed to
operate the auxiliary equipment.
Most of the candidate technologies, when applied, affect the gross
generation efficiency. However, some candidate technologies, namely
improved or new variable frequency drives and improved or new boiler
feed pumps, improve the net generation by reducing the auxiliary power
requirement. Because improvements in the efficiency of these devices
represent opportunities to reduce carbon intensity at existing affected
EGUs that would not be captured in measurements of emissions per gross
MWh, states may
[[Page 32555]]
want to consider standards expressed in terms of net generation. If a
state chooses to set standards in the form of gross energy output, it
will be up to the state to determine and demonstrate how to account for
emission reductions that are achieved through measures that only affect
the net energy output.
One of the more significant changes between the ACE proposal and
this action is that the EPA is not finalizing the NSR reforms that it
proposed in the same document that it proposed ACE. While the EPA
intends to take final action on the NSR reform at a later time in a
separate action, the consequences of that action are no longer
considered in parallel with ACE. Two of the candidate technologies,
blade path upgrades and a redesigned/replaced economizer, were proposed
as part of the BSER considering that NSR would not be a barrier for
installation. Under ACE as finalized without parallel NSR reforms, the
EPA anticipates that states may take into account costs associated with
NSR as a source-specific factor in considering whether these two
technologies are reasonable. While the EPA believes that states are
more likely to determine that blade path upgrades and redesigned/
replaced economizers are not as reasonable as anticipated at proposal
when these were proposed as elements of BSER alongside proposed NSR
reforms, as discussed above, the EPA is still finalizing a
determination that these candidate technologies are elements of the
BSER because it still expects these technologies to be generally
applicable across the fleet of existing EGUs, and because the costs of
the technologies themselves are generally economical and reasonable. In
any case, under ACE as finalized, states are required to evaluate the
applicability of all candidate technologies (i.e., the BSER) to a
particular existing source when establishing a standard of performance
for that source.
c. Forms of Standards of Performance
While the EPA is allowing broad flexibility for states in
establishing standards of performance for designated facilities, the
EPA is finalizing a requirement that all standards of performance be in
the form of an allowable emission rate (i.e., rate-based standard in,
for example, lb CO2/MWh-gross). As described in the proposal
an allowable emission rate is the form that corresponds to the EPA's
BSER determination for these emission guidelines. When HRIs are made at
an EGU, by definition, the CO2 emission rate will decrease
as described above in section III.E. There is a natural correlation
between the BSER and an allowable emission rate as the standard of
performance in this action. Also, by the Agency prescribing that only a
singular form of standard (i.e., an allowable emission rate) is
acceptable, it will promote continuity among states and power
companies, prevent ambiguity, and promote simplicity and ease of
administration and avoid undue burden on the states and regulated
parties.
The EPA received considerable comment that it should allow mass-
based standards of performance. While the EPA understands the appeal of
a mass-based standard for some stakeholders, this form of standard is
not compatible with the EPA's BSER determination. In fact, the EPA
believes that a mass-based standard would undermine the EPA's BSER. If
designated facilities were to have mass-based standards, it is likely
that many would meet their compliance obligation by reduced
utilization. A standard of performance that incentivizes reduced
utilization and possibly retirements does not reflect application of
the BSER. See section II.B above for a discussion of reduced
utilization and CAA section 111.
Additionally, given that the EPA has the obligation under CAA
section 111(d)(2) to determine whether state plans are
``satisfactory,'' certain programmatic bounds are appropriate to
facilitate the state's submission of, and EPA's review of, the
approvability of state plans. Having a uniform type of standard of
performance will help streamline the states' development of their
plans, as well as the EPA's review of those plans as there will be
fewer variables to consider in the development of each standard of
performance. While the Agency has experience implementing mass-based
programs, the uncertainty associated with projecting a level of
generation for designated facilities is unnecessary when there is a
more compatible format, i.e., a rate-based standard.
The EPA also notes that it is not establishing a preference or
requirement for whether a rate-based standard of performance be based
in gross or net heat rate. The EPA acknowledges that there are
ramifications of applying the BSER to establish a standard of
performance with the consideration of type of heat rate used. This may
be particularly important when considering the effects of part load
operations (i.e., net heat rate would include inefficiencies of the air
quality control system at a part load whereas gross heat rate would
not). This will also be important in recognizing the improved
efficiency obtained from upgrades to equipment that reduce the
auxiliary power demand. The consideration of this factor is left to the
discretion of the state.
2. Compliance Mechanisms
Just as states have broad flexibility and discretion in setting
standards of performance for designated facilities, sources have
flexibility in how they comply with those standards. To the extent that
a state develops a standard of performance based on the application of
the BSER for a designated facility within its jurisdiction, sources
should be free to meet that standard of performance using either BSER
technologies or certain non-BSER technologies or strategies. Thus, a
designated facility may have broad discretion in meeting its standard
of performance within the requirements of a state's plan. For example,
there are technologies, methods, and/or fuels that can be adopted at
the designated facility to allow the source to comply with its standard
of performance that were not determined to be the BSER, but which may
be applicable and prudent for specific units to use to meet their
compliance obligations. Examples of non-BSER technologies and fuels
include HRI technologies that were not included as candidate
technologies, CCS, and natural gas co-firing. In keeping with past
programs that regulated designated facilities using a standard of
performance, the EPA takes no position regarding whether there may be
other methods or approaches to meeting such a standard, since there are
likely various approaches to meeting the standard of performance that
the EPA is either unable to include as part of the BSER, or is unable
to predict. The EPA is, however, excluding some measures from use as
compliance measures: averaging and trading and bio-mass cofiring. These
measures do not meet the criteria for compliance measures. Those
criteria, which are designed to assure that compliance measures
actually reduce the source's emission rate, are two-fold: (1) The
compliance measures must be capable of being applied to and at the
source, and (2) they must be measurable at the source using data,
emissions monitoring equipment or other methods to demonstrate
compliance, such that they can be easily monitored, reported, and
verified at a unit.
With respect to the first criterion, the EPA believes that both
legal and practical concerns weigh against the inclusion of measures
that cannot qualify as a ``system of emission reduction.'' Allowing
those measures would be inconsistent with the EPA's
[[Page 32556]]
interpretation of the BSER as limited to measures that apply at and to
an individual source and reduce emissions from that source. Because
state plans must establish standards of performance--which by
definition \234\ ``reflect[ ] . . . the application of the [BSER]''--
implementation and enforcement of such standards should correspond with
the approach used to set the standard in the first place. Applying an
implementation approach that differs from standard-setting would result
in asymmetrical regulation. Specifically, a state's implementation
measures would result in a more or less stringent standard implemented
at an EGU than could otherwise be derived from application of the BSER.
---------------------------------------------------------------------------
\234\ See CAA section 111(a)(1)
---------------------------------------------------------------------------
There are certainly methods that affected EGUs could use to meet
compliance obligations that are not the BSER, but these methods still
fit the two criteria: They can be applied to and at the source and can
be measured at the source using data, emissions monitoring equipment or
other methods to demonstrate compliance, such that they can be
monitored, reported, and verified at a unit. Such examples include CCS
and natural gas cofiring.
Commenters also requested that reduced utilization be an available
compliance mechanism. While a designated facility reducing its
utilization would certainly reduce its mass of CO2
emissions, it would likely not lead to an improved emission rate. As
noted above in section III.F.1., a state can certainly take into
account a designated facility's projected decreased utilization in
setting a standard of performance, but it cannot make it the means of
meeting compliance obligations because the degree of emission
limitation achievable through the application of the BSER must still be
reflected in setting the standard of performance. See section II.B
above for a discussion of reduced utilization under CAA section
111.\235\
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\235\ For a discussion of reduced utilization in other CAA
contexts, please see ACE RTC Chapter 1, response to comment 76.
---------------------------------------------------------------------------
a. Averaging and Trading
This section discusses the question of whether averaging and
trading are permissible means for sources to comply with ACE. For a
discussion of averaging EGU-emissions over a compliance period, see
section III.F.1.a.(2). In the proposal, the EPA solicited comment on
whether CAA section 111(d) authorizes states to include averaging or
trading between existing sources in the plans they submit to meet the
requirements of final emission guidelines.\236\ Specifically, the EPA:
(1) Proposed to allow states to incorporate, as part of their plan,
emissions averaging among EGUs across a single plant; and (2) solicited
comment on whether CAA section 111(d) should be read not to authorize
states to include trading and averaging between sources.\237\
---------------------------------------------------------------------------
\236\ See 83 FR 44767-768.
\237\ Id.
---------------------------------------------------------------------------
The EPA received numerous comments on the topic of averaging and
trading for compliance with ACE. With respect to averaging across
designated facilities that are located at the same plant--including,
but not limited to, EGUs that are served by a common stack--some
commenters disapproved of this flexibility while others supported the
ability to implement ACE via averaging in state plans. On the topic of
averaging and trading between designated facilities located at
different plants, the Agency received mixed support and opposition.
Some commenters suggested that the EPA's proposed prohibition on
averaging and trading between designated facilities at different plants
was necessary given the Agency's construction of the BSER as limited to
systems that could be applied to and at the ``source'' itself. Other
commenters suggested that averaging and trading for compliance with ACE
is not precluded under CAA section 111(d). Commenters also suggested
that the statutory cross-reference under CAA section 111(d)(1) to CAA
section 110 suggests that trading could be used for implementation
under ACE. Several commenters provided examples of prior CAA section
111(d) regulations in which the agency allowed trading for
implementation (e.g., CAMR).
In this final action, the EPA determines that: Neither (1)
averaging across designated facilities located at a single plant; nor
(2) averaging or trading between designated facilities located at
different plants are permissible measures for a state to employ in
establishing standards of performance for existing sources or for
sources to employ to meet those standards. CAA section 111(d)
authorizes states to establish standards of performance for ``any
existing source,'' which the CAA defines as ``any stationary source
other than a new source.'' \238\ ``Stationary source,'' in turn, means
``any building, structure, facility, or installation which emits or may
emit any air pollutant.'' \239\ In the ACE proposal, the EPA explained
that an EGU ``subject to regulation upon finalization of ACE is any
fossil fuel-fired electric utility steam generating unit (i.e., utility
boilers) that is not an integrated gasification combined cycle (IGCC)
unit (i.e., utility boilers, but not IGCC units) that was in operation
or had commenced construction as of [January 8, 2014],'' and ``serves a
generator capable of selling greater than 25 MW to a utility power
distribution system and has a base load rating greater than 260 GJ/h
(250 MMBtu/h) heat input of fossil fuel (either alone or in combination
with any other fuel).'' \240\ The proposal then identified HRI measures
as the BSER for such units.\241\ This action finalizes the Agency's
determination that HRI measures are the BSER for designated facilities.
See sections III.C & III.E.
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\238\ 42 U.S.C. 7411(a)(6).
\239\ Id. at section 7411(a)(3).
\240\ 83 FR 44754.
\241\ Id. at 44755.
---------------------------------------------------------------------------
Although the D.C. Circuit has recognized that the EPA may have
statutory authority under CAA section 111 to allow plant-wide emissions
averaging,\242\ the Agency's determination that individual EGUs are
subject to regulation under ACE precludes the Agency from attempting to
change the basic unit from an EGU to a combination of EGUs for purposes
of ACE implementation.\243\
---------------------------------------------------------------------------
\242\ See U.S. Sugar v. EPA, 830 F.3d 579, 627 n.18 (D.C. Cir.
2016) (pointing to the definition of ``stationary source'').
\243\ See, e.g., ASARCO v. EPA, 578 F.2d 319, 327 (D.C. Cir.
1978).
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In ASARCO, the EPA promulgated regulations re-defining ``stationary
source'' as ``any . . . combination of . . . facilities.'' \244\ By
treating a ``combination of facilities'' as a single source, the EPA
intended to adopt a ``bubble concept,'' which would allow a facility to
``avoid complying with the applicable NSPS so long as emission
decreases from other facilities within the same source cancel out the
increases from the affected facility.'' \245\ The Court concluded,
however, that the Agency ``has no authority to rewrite the statute in
this fashion.'' \246\ In a subsequent case, the D.C. Circuit recognized
that the EPA has ``broad discretion to define the statutory terms for
`source,' [i.e., building, structure, facility or installation], so
long as guided by a reasonable application of the statute.'' \247\
---------------------------------------------------------------------------
\244\ Id. at 326 (emphasis added).
\245\ Id.
\246\ Id. at 327.
\247\ Alabama Power Co. v. Costle, 636 F.2d 323, 396 (D.C. Cir.
1979).
---------------------------------------------------------------------------
Following these two decisions, the EPA adopted a new regulation
defining ``building, structure, facility, or installation'' for
nonattainment-area
[[Page 32557]]
permitting under the NSR program as ``all of the pollutant-emitting
activities which belong to the same industrial grouping, are located on
one or more contiguous or adjacent properties, and are under the
control of the same person (or persons under common control) except the
activities of any vessel.'' \248\ That rulemaking lead to the Supreme
Court's decision in Chevron v. NRDC, 467 U.S. 837 (1984). In Chevron,
the Court recognized that ``it is certainly no affront to common
English usage to take a reference to a major facility or a major source
to connote an entire plant as opposed to its constituent parts.'' \249\
---------------------------------------------------------------------------
\248\ 46 FR 50766.
\249\ 467 U.S. at 860.
---------------------------------------------------------------------------
Here, the EPA does not need to determine whether it would have been
reasonable to interpret ``building, structure, facility, or
installation'' as an entire plant for purposes of CAA section 111
(thus, encompassing all EGUs located at a single plant). Because ACE
identifies individual EGUs as the designated facility,\250\ state plans
cannot accommodate any ``bubbling'' of EGUs for compliance with these
emission guidelines.
---------------------------------------------------------------------------
\250\ Fossil fuel-fired steam generators (i.e., EGUs) were among
the first source categories listed under CAA section 111. See 36 FR
5931. Since then, the Agency has promulgated multiple rulemakings
specifically regulating EGUs. See e.g., 40 CFR part 60, subparts D,
Da, TTTT, and UUUU. In any case, the decision to identify EGUs as
the regulated source is made under CAA section 111(b); that is
because regulations under CAA section 111(d) are authorized for
sources ``to which a standard of performance . . . would apply if
such existing source were a new source.'' In this case, new source
performance standards have been established for certain ``new,
modified, and reconstructed'' EGUs. 80 FR 64510. While the EPA
proposed to revisit several portions of those standards, see 83 FR
65424, the Agency did not propose to revise the applicability
requirements for them, id. at 65429. Accordingly, individual EGUs
continue to be the appropriate regulatory target for purposes of ACE
(and not, for example, multiple EGUs that may be co-located at a
single power plant).
---------------------------------------------------------------------------
In addition, as proposed, the EPA is precluding averaging or
trading between designated facilities located at different plants for
the following reasons.
The EPA believes that averaging or trading across designated
facilities (or between designated facilities and other power plants,
e.g., wind turbines) is inconsistent with CAA section 111 because those
options would not necessarily require any emission reductions from
designated facilities and may not actually reflect application of the
BSER.\251\ Because state plans must establish standards of
performance--which by definition ``reflects . . . the application of
the best system of emission reduction''--implementation and enforcement
of such standards should be based on improving the emissions
performance of sources to which a standard of performance applies.
Additionally, averaging or trading would effectively allow a state to
establish standards of performance that do not reflect application of
the BSER. For example, under a trading program, a single source could
potentially shut down or reduce utilization to such an extent that its
reduced or eliminated operation generates adequate compliance
instruments for a state's remaining sources to meet their standards of
performance without any emission reductions from any other source. This
compliance strategy would undermine the EPA's determination of the BSER
in this rule, which the EPA has determined as heat rate improvements.
---------------------------------------------------------------------------
\251\ The EPA's interpretation of CAA section 111 on this point
has changed since the promulgation of the since-vacated CAMR and
does not necessarily extend to other CAA programs and provisions,
which can be distinguishable based on the applicable statutory and
regulatory requirements and programmatic circumstances. For example,
the EPA has implemented several trading programs under the so-called
Good Neighbor provision at CAA section 110(a)(2)(D)(i)(I). See
Finding of Significant Contribution and Rulemaking for Certain
States in the Ozone Transport Assessment Group Region for Purposes
of Reducing Regional Transport of Ozone (also known as the
NOX SIP Call), 63 FR 57356 (October 27, 1998); Clean Air
Interstate Rule (CAIR) Final Rule, 70 FR 25162 (May 12, 2005); Cross
State Air Pollution Rule (CSAPR) Final Rule, 76 FR 48208 (August 8,
2011); CSAPR Update Final Rule, 81 FR 74504 (October 26, 2016).
Section 110(a)(2)(A), which is applicable to the requirements of the
Good Neighbor provision, explicitly authorizes the use of marketable
permits and auctions of emission rights. Additionally, the Good
Neighbor provision prohibits emissions activity in certain
``amounts'' with respect to the NAAQS. The affirmative requirement
under this provision to reduce certain emissions means it is
appropriate to implement measures which will result in the required
emission reductions. The EPA has done so previously by implementing
trading programs to reduce ozone and particulate matter, the
regional-scale nature of which can be effectively regulated under a
trading program.
---------------------------------------------------------------------------
In light of these concerns, as proposed, the EPA concludes that
neither averaging nor trading between EGUs at different plants can be
used in state plans for ACE implementation. Regarding commenters'
assertions that the statutory text of CAA section 111(d) does not
preclude averaging or trading, the Agency finds that the statutory text
of CAA section 111(d) does not require the EPA to allow averaging or
trading as a measure for states in establishing existing-source
standards of performance or allow for sources to adopt as a compliance
measure, and the interpretation of the limits on the scope of BSER
under CAA section 111(a)(1) set forth in section II above as a basis
for the repeal of the CPP suggests that those measures are not
permissible, as they are not applied to a source.
Regarding commenters' assertions that the cross-reference in CAA
section 111(d) to CAA section 110 authorizes averaging or trading for
implementation, the Agency disagrees. The cross-reference to CAA
section 110 indicates that ``[t]he Administrator shall prescribe
regulations which shall establish a procedure similar to that provided
by CAA section 110 of this title under which each State shall submit to
the Administrator a plan . . . .'' (emphasis added). The Agency's
interpretation of this cross-reference is that it focuses on the
procedure under which states shall submit plans to the EPA. It does not
imply anything affirmative or negative about implementation mechanisms
available under CAA section 111(d). In the absence of definitive
instruction under this CAA provision, the Agency uses its best judgment
to conclude that the meaning and scope of the BSER in this rule
preclude the use of averaging or trading for covered EGUs at different
plants in state plans. Commenters also asserted that the EPA has
promulgated regulations under CAA section 111(d) that included trading
in the past, such as CAMR. As an initial matter, CAMR was vacated by
the D.C. Circuit and never implemented. Nonetheless, the Agency notes
that the CAMR included trading both in the establishment of the BSER
and as an available implementation mechanism. In the ACE rule, by
contrast, trading was not factored into the determination of the BSER
and so should not be authorized for implementation.
Moreover, it is not clear that trading would qualify as a ``system
of emission reduction'' that can be applied to and at an individual
source and would lead to emission reductions from that source. Indeed,
the nature of trading as a compliance mechanism is such that some
sources would not need to apply any pollution control techniques at all
in order to comply with a cap-and-trade scheme. A compliance mechanism
under which multiple sources can comply not by any measures applied to
those sources individually, but instead by obtaining credits generated
by measures adopted at another source, is not consistent with the
interpretation of the limits on the scope of BSER adopted in section II
above. Accordingly, trading is not permissible under CAA section 111.
b. Biomass Co-Firing
The ACE proposal solicited comment on the inclusion of forest-
derived and non-forest biomass as non-BSER compliance options for
affected units to meet state plan standards. The proposal also
solicited comment on what value to
[[Page 32558]]
attribute to biogenic CO2 associated with non-forest
biomass, if included. The EPA received a range of comments both
supporting and opposing the use of forest-derived and non-forest
biomass feedstocks for compliance under this rule. Additionally, the
EPA received a range of comments regarding the valuation of
CO2 emissions from biomass combustion.
Numerous commenters supported the inclusion of biomass as a
compliance measure. Some reiterated the EPA's 2018 policy statement
regarding biogenic CO2 emissions, which laid out the
Agency's intent to treat biogenic CO2 emissions from forest
biomass from managed forests as carbon neutral in forthcoming Agency
actions. Specifically, these commenters stated that the nature of
biomass and its role in the natural carbon cycle (i.e., carbon is
sequestered during biomass growth that occurs offsite) makes biomass a
carbon-neutral fuel, and therefore that biomass should be eligible as a
compliance option under this rule. Commenters opposing the inclusion of
biomass for compliance asserted that biomass combustion does not reduce
stack GHGs emissions, as it emits more emissions per Btu than fossil
fuels, and therefore should not be eligible for compliance. Some
comments noted that the scientific rationale underlying the use of
biomass as a potential GHG reduction measure at stationary sources
relies primarily on terrestrial CO2 sequestration occurring
due to activities offsite (i.e., activities outside of and largely not
under the control of a designated facility).
The construct of this final ACE rule necessitates that measures
taken to meet compliance obligations for a source actually reduce its
emission rate in that: (1) They can be applied to the source itself;
and (2) they are measurable at the source of emissions using data,
emissions monitoring equipment or other methods to demonstrate
compliance, such that they can be easily monitored, reported, and
verified at a unit (see section III.F.2). While the firing of biomass
occurs at a designated facility, biomass firing in and of itself does
not reduce emissions of CO2 emitted from that source.
Specifically, when measuring stack emissions, biomass emits more
CO2 per Btu than fossil fuels, thereby increasing the
CO2 emission rate at the source. Accordingly, recognition of
any potential CO2 emissions reductions associated with
biomass firing at a designated facility relies on accounting for
activities not applied at and largely not under the control of that
source (i.e., activities outside of and largely unassociated with a
designated facility), including consideration of terrestrial carbon
effects during the biomass fuel growth. Therefore, biomass fuels do not
meet the compliance obligations and are not eligible for compliance
under this rule.
3. Submission of State Plans
CAA section 111(d)(1) provides that states shall submit to the EPA
plans that establish standards of performance for existing sources
within their jurisdiction and provide for implementation and
enforcement of such standards. Under CAA section 111(d)(2), the EPA has
the obligation to determine whether such plans are ``satisfactory.'' In
light of the statutory text, state plans implementing ACE should
include detailed information related to two key aspects of
implementation: Establishing standards of performance for covered EGUs
and providing measures that implement and enforce such standards.
Generally, the plans submitted by states must adequately document
and demonstrate the process and underlying data used to establish
standards of performance under ACE. Providing such documentation is
required so that the EPA can adequately and appropriately review the
plan to determine whether it is satisfactory; the EPA's authority to
promulgate a federal plan is triggered in ``cases where the State fails
to submit a satisfactory plan . . . .'' \252\ For example, states must
include data and documentation sufficient for the EPA to understand and
replicate the state's calculations in applying BSER to establish
standards of performance. Plans must also adequately document and
demonstrate the methods employed to implement and enforce the standards
of performance such that EPA can review and identify measures that
assure transparent and verifiable implementation. Additionally, state
plan submissions must, unless otherwise provided in a particular
emissions guideline rule, adhere to the components of the new
implementing regulations described in section IV. The following
paragraphs discuss several components that states are required to
include in their state plans as required under these final emission
guidelines.
---------------------------------------------------------------------------
\252\ CAA section 111(d)(2)(A).
---------------------------------------------------------------------------
First, state plans must detail the approach or methods used by the
state to apply the BSER and establish standards of performance. The
state should include enough detail for the EPA to be able to reproduce
the state's methods and calculations. The methodology submitted should
clearly identify the approach by which states evaluate all of the HRIs
finalized in this action, both alone and in combination with each other
where technically feasible. To the extent that HRIs are not feasible to
apply at a particular EGU, states must provide a rationale (and
supporting data or metrics where relied upon) for why the calculation
would be invalid or inappropriate.
Second, state plans must identify EGUs within their borders that
meet the applicability requirements and are thereby considered a
designated facility under ACE. Plans must also include emissions and
operational data relied upon to apply BSER and determine standards of
performance. These data must include, at a minimum, an inventory of
CO2 emissions data and EGU operational data (e.g., heat
input) for designated EGUs during the most recent calendar year for
which data is available at the time of state plan development and/or
submission. State plans must also include any future projections data
relied upon to establish standards of performance, including future
operational assumptions. To the extent that state plans consider an
existing source's remaining useful life in establishing a standard of
performance for that source, the state plan must specify the exact date
by which the source's remaining useful life will be zero. In other
words, the state must establish a standard of performance that
specifies the designated facility will retire by a future date certain
(i.e., the date by which the EGU will no longer supply electricity to
the grid). It is important to note that (as with all aspects of the
state plan) the standard of performance and associated retirement date
will be federally enforceable upon approval by the EPA. In the event a
source's circumstances change so that this retirement date is no longer
feasible, states generally have the authority and ability to revise
their state plans. Such plan revisions must be adopted by the state and
submitted to the EPA pursuant to the requirements of 40 CFR 60.28a.
Third, state plans should submit detailed documentation
demonstrating in detail the application of the state's methodology to
the state's data. In other words, states should include the
calculations relied upon when applying the BSER to establish standards
of performance. States should also include detailed documentation
demonstrating the relied upon compliance mechanisms, consistent with
section III.F.2.
Regarding establishing standards of performance and ensuring
verifiable implementation for EGUs with complex
[[Page 32559]]
stack configurations, states should include approaches (e.g., formulas)
that appropriately assign emissions and generation to individual EGUs.
For example, if two EGUs share a common stack, the state should provide
a methodology for disaggregating monitoring data to the individually
covered EGUs. Another example for states to consider when appropriately
assigning emissions and setting standards of performance is
apportioning HRI that affect and improve the performance of multiple
EGUs at a plant (e.g., apportioning improvement credited to installed
variable speed drives that affect multiple designated facilities at a
plant).
As part of ensuring that regulatory obligations appropriately meet
statutory requirements such as enforceability, the EPA has historically
and consistently required that obligations placed on sources be
quantifiable, permanent, verifiable, and enforceable. The EPA is
similarly requiring that standards of performance placed on designated
facilities as part of a state plan to implement ACE be quantifiable,
permanent, verifiable, and enforceable. A state plan implementing ACE
should include information adequate to support a determination by the
EPA that the plan meets these goals.
Additionally, the EPA is finalizing a determination that states
must include appropriate monitoring, reporting, and recordkeeping
requirements to ensure that state plans adequately provide for the
implementation and enforcement of standards of performance. Each state
will have the flexibility to design a compliance monitoring program for
assessing compliance with the standards of performance identified in
the plan. To the extent that designated facilities or states already
monitor and report relevant data to the EPA, states are encouraged to
use these existing systems to efficiently monitor and report ACE
compliance. For example, most potentially affected coal-fired EGUs
already continuously monitor CO2 emissions, heat input, and
gross electric output and report hourly data to the EPA under 40 CFR
part 75. Accordingly, if a state plan establishes a standard of
performance for a unit's CO2 emissions rate (e.g., lb/MWh),
states may use data collected by the EPA under 40 CFR part 75 to meet
the required monitoring, reporting, and recordkeeping requirements
under these emission guidelines.
The EPA is further generally applying the new implementing
regulations for timing, process and required components for state plan
submissions and implementation for state plans required for designated
facilities. The new implementing regulations are described in detail in
section IV. In section 40 CFR 60.5740a there is a complete description
and list of what a state plan must include.
a. Electronic Submission of State Plans
The EPA will, in the near future, provide states with an electronic
means of submitting plans. While the EPA proposed the use of the SPeCS
software which has been used by the Agency for SIP submittals, the
Agency is still developing the software to be used for ACE submittals.
The EPA recommends that states submit state plans electronically as it
will provide a more structured process and provide more timely feedback
to the submitting state. The Agency also anticipates that many states
will choose to submit plans electronically as states have a level of
familiarity with EPA software, such as SPeCS. The EPA envisions the
electronic submittal system as a user-friendly, web-based system that
enables state air agencies to officially submit state plans and
associated information electronically for review. Electronic submittal
is the EPA's preferred method for receiving state plan submissions
under ACE. However, if a state prefers to submit its state plan outside
of this forthcoming system, the state must confer with its EPA Regional
Office regarding additional guidance for submitting the plan to the
EPA.
b. Approvability of State Plans That Are More Stringent Than Required
Under ACE
One issue raised by several commenters is whether the EPA can
approve, and thereby render federally enforceable, a state plan that
contains requirements for an existing source within a state's
jurisdiction that are more stringent than what is required under CAA
section 111(d).\253\ At proposal, the EPA acknowledged that CAA section
116 allows states to be more stringent than federal requirements as a
matter of state law, but also noted that nothing in section 116
provides for such more-stringent requirements to become federally
enforceable.\254\ Some commenters assert that it is not within the
EPA's authority under the CAA to approve such more-stringent
requirements as part of the federally enforceable state plan, and the
EPA should instead direct states to make such requirements exclusively
a matter of state law and enforceability. Other commenters assert that
the Supreme Court in Union Electric Co. v. EPA, 427 U.S. 246, (1976),
precluded a reading of section 116 that would functionally require two
separate sets of requirements, one at the stricter state level and one
at the federally approved level.
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\253\ Requirements under state plans generally become federally
enforceable once the EPA determines that they are ``satisfactory''
per section 111(d)(2). Section 113(a)(3) provides the EPA with the
authority, in part, to enforce any requirement of any plan approved
under the same subchapter as section 113; section 111(d) is within
the same subchapter as section 113. Additionally, section 304(a)(1)
grants citizens the authority to bring civil action against any
person in violation of an ``emission standard'' under the CAA.
Section 304(f)(1) and (3) respectively define ``emission standard''
as a standard of performance or any requirement under section 111
without regard to whether such requirement is expressed as an
emission standard. Accordingly, citizens with standing could attempt
to enforce the requirements of an EPA-approved section 111(d) state
plan.
\254\ 83 FR 44767 n.37.
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In response to the commenters who contend the EPA does not have the
authority to approve more stringent state plans, the EPA believes that
these comments have merit. However, the EPA does not think it is
appropriate at this point to predetermine the outcome of its action on
a state plan submission in this regard without going through notice-
and-comment rulemaking with regard to the approval or disapproval of
that submission.\255\
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\255\ In the CPP, the EPA took the position that because ``the
EPA's action on a 111(d)(1) state plan is structurally identical to
the EPA's action on a SIP,'' the EPA is required to approve a state
plan that is more stringent than the BSER because of CAA section 116
as interpreted by Union Electric. Legal Memorandum Accompanying
Clean Power Plan for Certain Issues at 28-30; 80 FR 64840. For the
reasons further described in this preamble, the EPA's position on
this state plan stringency issue has evolved since the EPA addressed
it in the CPP, and the Agency now identifies a potentially salient
structural distinction between CAA sections 110 and 111(d). Notably,
the BSER aspect of section 111(d) is absent from section 110, as
SIP-measures required for attainment or maintenance of the NAAQS are
not predicated on application of a specific technology. Under CAA
section 109, the EPA establishes a health-protective standard, and
CAA section 110 then gives states broad latitude on designing the
contents of SIPs intended to meet that standard. By contrast, under
CAA section 111, the EPA identifies a particular measure or set of
measures, and CAA section 111(d) more narrowly prescribes that the
contents of state plans include performance standards based on the
application of such measures, and measures that provide for the
implementation and enforcement of such standards. Given this key
distinction between CAA sections 110 and 111(d), the EPA no longer
takes the position it took in the CPP that these two statutory
schemes are ``structurally identical'' and that therefore, under
Union Electric, it must approve section 111(d) state plans that are
more stringent on this basis. See FCC v. Fox Television Stations,
Inc., 556 U.S. 502 (2009). However, for the reasons discussed in
this preamble, the EPA is not at this stage prejudging the
approvability of any future plan submission in this regard and will
evaluate any plan submission, including one that is more stringent
than what the BSER requires, on an individual basis through notice-
and-comment rulemaking.
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[[Page 32560]]
In response to the commenters who contend the EPA has the authority
to approve more stringent state plans, as an initial matter, the EPA
notes that the Court's decision in Union Electric on its face does not
apply to state plans under CAA section 111(d). The decision
specifically evaluated whether the EPA has the authority to approve a
SIP under section 110 that is more stringent than what is necessary to
attain and maintain the NAAQS. The Court specifically looked to the
requirements in CAA section 110(a)(2)(A) as part of its analysis, a
provision that is wholly separate and distinct from CAA section 111(d).
CAA section 110(a)(2)(A) requires SIPs to include any assortment of
measures that may be necessary or appropriate to meet the ``applicable
requirements'' of the CAA, which largely relate to the attainment and
maintenance of the NAAQS. CAA section 111(d), by contrast, directs
state plans to establish standards of performance for existing sources
that reflect the degree of emission limitation achievable through the
application of the BSER that EPA has determined is adequately
demonstrated--and CAA section 111(d) expressly provides that it cannot
be used to regulate NAAQS pollutants. Because the Court's holding was
in the context of section 110 and not CAA section 111(d), the EPA
believes that Union Electric does not control the question of whether
CAA section 111(d) state plans may be more stringent than federal
requirements.
Thus, Union Electric and the SIP issues that it addresses are
distinguishable from the CAA section 111(d) context. States have broad
discretion under section 110 to select the measures for inclusion in
their SIPs to meet the NAAQS, which are health- or welfare-based
standards not predicated on the application of any particular
technology, whereas state plans under 111(d) must establish standards
of performance, which are defined at CAA section 111(a)(1) as
reflecting the degree of emission limitation achievable through
application of the BSER at a source. However, the EPA is mindful that
it does not prejudge the approvability of any state plan submission,
but rather must determine whether it is ``satisfactory'' through
undertaking notice-and-comment rulemaking.\256\ Further, some issues of
approvability are most appropriately handled through the submission,
review, and approval or disapproval processes (with approvals and
disapprovals then being subject to judicial review). The EPA
anticipates that some states may wish to apply additional measures
beyond those that the EPA has identified as BSER when setting the
standard of performance, which states may believe are better suited to
particular existing sources within their jurisdiction. The EPA notes,
as stated above, that the comments suggesting that the EPA does not
have the authority to approve a state plan that establishes standards
of performance for existing sources more stringent than those that
would result from an application of the BSER identified by the EPA have
merit. However, the EPA believes that the question of whether it has
the authority to approve, and thereby render federally enforceable, a
state plan that establishes standards of performance that are more
stringent than those that would result from the application of the BSER
that the EPA has identified is addressed properly in the context of
evaluating an individual state plan.
---------------------------------------------------------------------------
\256\ See CAA section 111(d)(2), 40 CFR 60.27a(b).
---------------------------------------------------------------------------
While the EPA does not prejudge the approvability of a state plan
that establishes standards of performance for existing sources within
the state's jurisdiction that are more stringent than those that would
result from the application of the BSER that the EPA has identified,
there are clear principles and limitations imposed by CAA section
111(d) that will apply to the EPA's review of any state plan. As a
first principle, states must apply the BSER measures, as further
described in section III.E. of the preamble, and derive a standard of
performance that reflects the degree of emission limitation achievable
through application of the candidate technologies, taking into account
remaining useful life and other factors as appropriate.
As a second principle, whatever the scope of a state's authority
under state law may be to design a scheme to meet the emissions
guidelines, the EPA's authority to approve state plans that contain
standards of performance for existing sources only extends to measures
that are authorized statutorily. Specifically, the EPA's authority is
constrained to approving measures that comport with the statutory
interpretations, including interpretations of the limitations on
``standards of performance'' and the underlying BSER. For example, CAA
section 111(d)(1) clearly contemplates that state plans may only
contain requirements for existing sources, and not other entities.
Therefore, in implementing the ACE rule, the EPA may not approve state
plan requirements on entities other than existing EGUs, which are the
designated facilities under this rule.\257\ Another example that would
exceed the EPA's authority is a state plan that includes standards of
performance or implementation measures that do not result in emission
reductions from an individual designated facility, such as the use of
biomass or emissions trading, for the reasons discussed at section
III.E.4.c. and III.F.2.a, respectively. Finally, the EPA does not have
the authority to approve measures that purport to be standards of
performance but that actually do not meet the statutory and regulatory
terms for such standards. For example, under ACE, the EPA cannot
approve a standard that is a requirement for a designated facility shut
down. Such a standard is an operational standard rather than a standard
of performance.\258\ The EPA has not authorized the use of operational
standards under CAA section 111(h) because the EPA has determined that
it is feasible to prescribe a standard of performance for this source
category and pollutant, expressed as an emission rate.\259\
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\257\ Section 111(d) clearly identifies that the regulated
entity under this provision is an existing source that would be of
the same source category as a new source regulated under section
111(b), i.e., a designated facility, as defined at 40 CFR 60.21(b).
If the EPA were to approve a state plan that contained provisions
regulating entities other than designated facilities, that approval
would give the EPA (and citizen groups) federal enforcement
authority over such entities. The EPA believes such a result would
be contrary to statements by the U.S. Supreme Court that caution an
agency against interpreting its statutory authority in a way that
``would bring about an enormous and transformative expansion in
[its] regulatory authority without clear congressional
authorization,'' Utility Air Regulatory Group v. EPA, 134 S. Ct.
2427, 2444 (2014).
\258\ This example is distinguishable from the one described in
section IV.H. where a state chooses to rely on a source's remaining
useful life in establishing a less stringent standard of performance
for that source than would otherwise result from an application of
the BSER. In that instance, a state would include the shutdown date
as a measure for implementation of a standard of performance, as
required under section 111(d)(1)(B).
\259\ The EPA also notes that for purposes of a federal plan,
the EPA is limited to promulgating a standard of performance, which,
as defined by section 111(a)(1) must reflect the degree of emission
limitation achievable by the BSER; in promulgating a standard of
performance under a federal plan, the statute directs the EPA to
take into account, among other factors, remaining useful life of the
source to which the standard applies. See section 111(d)(2).
---------------------------------------------------------------------------
As previously described, the EPA must review state plans, including
plans that establish standards of performance for a particular existing
source or sources that are more stringent than the standards that would
result from application of the BSER, through notice-and-comment
rulemaking to determine whether they are ``satisfactory''. This review
includes ensuring that the state
[[Page 32561]]
plan submission does not contravene the statute by including measures
that the EPA has no authority to approve or enforce as a matter of
federal law, and that the state actually has evaluated the BSER in
setting a standard. Though the EPA lacks the authority to approve
certain measures, thereby rendering them federally enforceable, nothing
precludes states from implementing or enforcing such requirements as a
matter of state law.\260\
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\260\ See CAA section 116; 40 CFR 60.24a(f).
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G. Impacts of the Affordable Clean Energy Rule
1. What are the air impacts?
In the RIA for this action, the Agency provides a full benefit-cost
analysis of an illustrative policy scenario representing ACE, which
models adoption of HRI measures at coal-fired EGUs. This illustrative
policy scenario represents one set of potential outcomes of state
determinations of standards of performance and compliance with those
standards by affected coal-fired EGUs. Throughout the RIA, the
illustrative policy scenario is compared against a single baseline that
does not include the CPP. As described in Chapter 2 of the RIA, the EPA
believes that a single baseline without the CPP represents a reasonable
future against which to assess the potential impacts of the ACE rule.
The EPA also provides analysis in Chapter 2 of the RIA that satisfies
any need for regulatory impact analysis that may be required by statute
or executive order for the repeal of the CPP.
The EPA has identified the BSER to be HRI. The EPA is providing
states with a list of candidate HRI technologies that must be evaluated
when establishing standards of performance. The cost, suitability, and
potential improvement for any of these HRI technologies is dependent on
a range of unit-specific factors such as the size, age, fuel use, and
the operating and maintenance history of the unit. As such, the HRI
potential can vary significantly from unit to unit. The EPA does not
have sufficient information to assess HRI potential on a unit-by-unit
basis. Therefore, any analysis of the final rule is illustrative.
Nonetheless, the EPA believes that such illustrative analyses can
provide important insights.
In the RIA, the EPA evaluated an illustrative policy scenario that
assumes HRI potential and costs will differ based on unit size and
efficiency. To establish categories and HRI potential for use in the
RIA, the EPA developed a methodology that is explained in Chapter 1 of
the RIA. Designated facilities were grouped into twelve groups based on
three size categories and four efficiency categories. Cost and
performance assumptions for the candidate technologies were applied to
the groupings to establish representative and illustrative assumptions
for use in the RIA. The EPA then assumed these varying levels of HRI
potential and costs for the different groups in the power sector and
emissions modeling as an illustration of the potential impacts.
The EPA evaluates the potential impacts of the illustrative policy
scenario using the present value (PV) of costs, benefits, and net
benefits, calculated for the years 2023-2037 from the perspective of
2016, using both a three percent and seven percent end-of-period
discount rate. In addition, the EPA presents the assessment of costs,
benefits, and net benefits for specific snapshot years, consistent with
historic practice. These specific snapshot years are 2025, 2030, and
2035.
Overall, the impacts of the illustrative policy scenario in terms
of change in emissions, compliance costs, and other energy-sector
effects are small compared to the recent market-driven changes that
have occurred in the power sector. These larger industry trends are
discussed in detail in Chapter 2 of the RIA. In evaluating the
significance of the illustrative policy scenario, as presented in the
RIA and summarized here, it is important for context to understand that
these impacts are modest and do not diverge dramatically from baseline
expectations.
Emissions are projected to be lower under the illustrative policy
scenario than under the baseline. Table 3 shows projected aggregate
emission decreases for the illustrative policy scenario, relative to
the baseline, for CO2, SO2 and NOX
from the electricity sector.
Table 3--Projected CO2, SO2, and NOX Electricity Sector Emission Impacts for the Illustrative Policy Scenario,
Relative to the Baseline
[2025, 2030, and 2035]
----------------------------------------------------------------------------------------------------------------
CO2 (million SO2 (thousand NOX (thousand
short tons) short tons) short tons)
----------------------------------------------------------------------------------------------------------------
2025............................................................ (12) (4.1) (7.3)
2030............................................................ (11) (5.7) (7.1)
2035............................................................ (9.3) (6.4) (6.0)
----------------------------------------------------------------------------------------------------------------
Note: All estimates in this table are rounded to two significant figures.
The emissions changes in these tables do not account for changes in
HAP that may occur as a result of this rule. For projected impacts on
mercury emissions, please see Chapter 3 of the RIA. The EPA was unable
to project impacts on other HAP emissions from the illustrative policy
scenario due to methodology and resource limitations.
As noted earlier in this section, the illustrative policy scenario
is compared against a baseline that does not include the CPP. This is
because the ACE action only occurs after the repeal of the CPP. Chapter
2 of the RIA discusses the EPA's analysis of the CPP repeal. It
explains how after reviewing the comments and fully considering a
number of factors, the EPA ultimately concluded that the most likely
result of implementation of the CPP would be no change in emissions and
therefore no cost or changes in health benefits. This conclusion (i.e.,
that repeal of the CPP has little or no effect against a baseline that
includes the CPP) is appropriate for several reasons, consistent with
OMB's guidance that the baseline for analysis ``should be the best
assessment of the way the world would look absent the proposed
action.'' \261\ It is the EPA's consideration of the weight of the
evidence, taking into account the totality of the available
information, as presented in Chapter 2 of the RIA, that leads to the
finding and conclusion that there is likely to be no difference between
a world where the CPP is implemented and one where it is not. As
further explained in Chapter 2 of the RIA, the EPA comes to this
conclusion not through the use of a single analytical
[[Page 32562]]
scenario or modeling alone, but rather through the weight of evidence
that includes: Several IPM scenarios that explore a range of changes to
assumptions about implementation of the CPP; consideration of the
ongoing evolution and change of the electric sector; and recent
commitments by many utilities that include long-term CO2
reductions across the EGU fleet.
---------------------------------------------------------------------------
\261\ OMB circular A-4, at 15.
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2. What are the energy impacts?
This final action has energy market implications. Overall, the
analysis to support this action indicates that there are important
power sector impacts that are worth noting, although they are small
relative to recent market-driven changes in the sector or compared to
some other EPA air regulatory actions for EGUs. The estimated impacts
reflect the EPA's illustrative analysis of the final action. States are
afforded considerable flexibility in the final action, and thus the
impacts could be different to the extent states make different choices
than those assumed in the illustrative analysis.
Table 4 presents a variety of energy market impacts for 2025, 2030,
and 2035 for the illustrative policy scenario representing ACE,
relative to the baseline.
Table 4--Summary of Certain Energy Market Impacts for the Illustrative Policy Scenario, Relative to the Baseline
[Percent change]
----------------------------------------------------------------------------------------------------------------
2025 (%) 2030 (%) 2035 (%)
----------------------------------------------------------------------------------------------------------------
Retail electricity prices.................................... 0.1 0.1 0.0
Average price of coal delivered to the power sector.......... 0.1 0.0 (0.1)
Coal production for power sector use......................... (1.1) (1.0) (1.0)
Price of natural gas delivered to power sector............... 0.0 (0.1) (0.6)
Price of average Henry Hub (spot)............................ 0.0 0.0 (0.6)
Natural gas use for electricity generation................... (0.4) (0.3) 0.0
----------------------------------------------------------------------------------------------------------------
Energy market impacts are discussed more extensively in the RIA
found in the rulemaking docket.
3. What are the compliance costs?
The power industry's ``compliance costs'' are represented in this
analysis as the change in electric power generation costs between the
baseline and illustrative policy scenario, including the cost of
monitoring, reporting, and recordkeeping. In simple terms, these costs
are an estimate of the increased power industry expenditures required
to implement the HRI required by the final action.
The compliance assumptions--and, therefore, the projected
compliance costs--set forth in this analysis are illustrative in nature
and do not represent the plans that states may ultimately pursue. The
illustrative policy scenario is designed to reflect, to the extent
possible, the scope and nature of the final guidelines. However, there
is considerable uncertainty with regards to the precise measures that
states will adopt to meet the final requirements because there are
considerable flexibilities afforded to the states in developing their
state plans.
Table 5 presents the annualized compliance costs of the
illustrative policy scenario.
Table 5--Compliance Costs for the Illustrative Policy Scenario, Relative
to the Baseline
[Millions of 2016$]
------------------------------------------------------------------------
Year Cost
------------------------------------------------------------------------
2025....................................................... 290
2030....................................................... 280
2035....................................................... 25
------------------------------------------------------------------------
Note: Compliance costs equal the projected change in total power sector
generating costs plus the costs of monitoring, reporting, and
recordkeeping.
More detailed cost estimates are available in the RIA included in
the rulemaking docket.
4. What are the economic and employment impacts?
Environmental regulation may affect groups of workers differently,
as changes in abatement and other compliance activities cause labor and
other resources to shift. An employment impact analysis describes the
characteristics of groups of workers potentially affected by a
regulation, as well as labor market conditions in affected occupations,
industries, and geographic areas. Market and employment impacts of this
final action are discussed more extensively in Chapter 5 of the RIA for
this final action.
5. What are the benefits?
The EPA reports the estimated impact on climate benefits from
changes in CO2 and the estimated impact on health benefits
attributable to changes in SO2, NOX, and
PM2.5 emissions, based on the illustrative policy scenario
described previously. The EPA refers to the climate benefits as
``targeted pollutant benefits'' as they reflect the direct benefits of
reducing CO2, and to the ancillary health benefits derived
from reductions in emissions other than CO2 as ``co-
benefits'' as they are not direct benefits from reducing the targeted
pollutant. To estimate the climate benefits associated with changes in
CO2 emissions, the EPA applied a measure of the domestic
social cost of carbon (SC-CO2). The SC-CO2 is a
metric that estimates the monetary value of impacts associated with
marginal changes in CO2 emissions in a given year. The SC-
CO2 estimates used in the RIA for these rulemakings focus on
the direct impacts of climate change that are anticipated to occur
within U.S. borders.
The estimated health co-benefits are the monetized value of the
human health benefits among populations exposed to changes in
PM2.5 and ozone. This rule is expected to alter the
emissions of SO2 and NOX emissions, which will in
turn affect the level of PM2.5 and ozone in the atmosphere.
Using photochemical modeling, the EPA predicted the change in the
annual average PM2.5 and summer season ozone across the U.S.
for the years 2025, 2030, and 2035 for the illustrative policy
scenario. The EPA next quantified the human health impacts and economic
value of these changes in air quality using the environmental Benefits
Mapping and Analysis Program--Community Edition (BENMAP-CE). The EPA
quantified effects using concentration-response parameters
[[Page 32563]]
detailed in the RIA, which are consistent with those employed by the
Agency in the PM NAAQS and Ozone NAAQS RIAs (U.S. EPA, 2012; 2015)
(Table 6).
Table 6--Estimated Economic Value of Avoided PM2.5 and Ozone-Attributable Deaths and Illnesses for the Illustrative Policy Scenario Using Alternative Approaches to Representing PM2.5 Effects
[95% Confidence interval in parentheses; millions of 2016$] a
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
2025
2030
2035
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Ozone Benefits Summed With PM Benefits
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
3% Discount rate
No-threshold model \b\...... $390 ($37 to $1,100).... t $970 ($86 to $2,800)... $490 ($47 to $1,300)... t $1,200 ($110 to $3,500) $550 ($52 to $1,500)... t $1,400 ($120 to
o o o $3,900).
Limited to above LML \c\.... $370 ($36 to $1,000).... t $480 ($42 to $1,400)... $440 ($42 to $1,200)... t $520 ($47 to $1,500)... $480 ($25 to $1,300)... t $610 ($16 to $1,800).
o o o
Effects above NAAQS \d\..... $76 ($8 to $210)........ t $250 ($23 to $760)..... $75 ($8 to $210)....... t $260 ($23 to $770)..... $90 ($10 to $250)...... t $320 ($28 to $930).
o o o
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Ozone Benefits Summed With PM Benefits
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
7% Discount rate
No-threshold model \b\...... $360 ($34 to $990)...... t $900 ($80 to $2,600)... $460 ($44 to $1,200)... t $1,100 ($100 to $3,200) $510 ($48 to $1,400)... t $1,300 ($110 to
o o o $3,600).
Limited to above LML \c\.... $350 ($33 to $950)...... t $460 ($41 to $1,300)... $410 ($39 to $1,100)... t $500 ($44 to $1,400)... $450 ($22 to $1,200)... t $590 ($13 to $1,700).
o o o
Effects above NAAQS \d\..... $76 ($8 to $210)........ t $250 ($23 to $760)..... $75 ($8 to $210)....... t $260 ($23 to $770)..... $90 ($10 to $250)...... t $320 ($28 to $930).
o o o
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
\a\ Values rounded to two significant figures.
\b\ PM effects quantified using a no-threshold model. Low end of range reflects dollar value of effects quantified using concentration-response parameter from Krewski et al. (2009) and Smith
et al. (2008) studies; upper end quantified using parameters from Lepeule et al. (2012) and Jerrett et al. (2009). Full range of ozone effects is included, and ozone effects range from 19%
to 22% of the estimated values.
\c\ PM effects quantified at or above the Lowest Measured Level of each long-term epidemiological study. Low end of range reflects dollar value of effects quantified down to LML of Krewski et
al. (2009) study (5.8 [micro]g/m\3\); high end of range reflects dollar value of effects quantified down to LML of Lepeule et al. (2012) study (8 [micro]g/m\3\). Full range of ozone effects
is still included, and ozone effects range from 20% to 49% of the estimated values.
\d\ PM effects only quantified at or above the annual mean of 12 to provide insight regarding the fraction of benefits occurring above the NAAQS. Range reflects effects quantified using
concentration-response parameters from Smith et al. (2008) study at the low end and Jerrett et al. (2009) at the high end. Full range of ozone effects is still included, and ozone effects
range from 91% to 95% of the estimated values.
To give readers insight to the distribution of estimated benefits
displayed in Table 6, the EPA also reports the PM benefits according to
alternative concentration cut-points and concentration-response
parameters. The percentage of estimated avoided PM2.5-
related deaths occurring in 2025 below the lowest measured levels (LML)
of the two long-term epidemiological studies the EPA uses to estimate
risk varies between 5 percent (Krewski et al. 2009) \262\ and 69
percent (Lepeule et al. 2012).\263\ The percentage of estimated avoided
premature deaths occurring in 2025 above the LML and below the NAAQS
ranges between 94 percent (Krewski et al. 2009) and 31 percent (Lepeule
et al. 2012). Less than 1 percent of the estimated avoided premature
deaths occur in 2025 above the annual mean PM2.5 NAAQS of 12
[micro]g/m\3\.
---------------------------------------------------------------------------
\262\ Krewski, D., Jerrett, M., Burnett, R.T., Ma, R., Hughes,
E., Shi, Y., Turner, M.C., Pope, C.A., Thurston, G., Calle, E.E.,
Thun, M.J., Beckerman, B., DeLuca, P., Finkelstein, N., Ito, K.,
Moore, D.K., Newbold, K.B., Ramsay, T., Ross, Z., Shin, H.,
Tempalski, B., 2009. Extended follow-up and spatial analysis of the
American Cancer Society study linking particulate air pollution and
mortality. Res. Rep. Health. Eff. Inst. 5-114-36.
\263\ Lepeule, J., Laden, F., Dockery, D., Schwartz, J., 2012.
Chronic exposure to fine particles and mortality: An extended
follow-up of the Harvard Six Cities study from 1974 to 2009.
Environ. Health Perspect. https://doi.org/10.1289/ehp.1104660.
---------------------------------------------------------------------------
Table 7 reports the combined domestic climate benefits and
ancillary health co-benefits attributable to changes in SO2
and NOX emissions estimated for 3 percent and 7 percent
discount rates in the years 2025, 2030, and 2035, in 2016 dollars. This
table reports the air pollution effects calculated using
PM2.5 log-linear no threshold concentration-response
functions that quantify risk associated with the full range of
PM2.5 exposures experienced by the population (U.S. EPA,
2009 \264\; U.S. EPA, 2011 \265\; NRC, 2002 \266\).
---------------------------------------------------------------------------
\264\ U.S. EPA, 2009. Integrated Science Assessment for
Particulate Matter. U.S. Environmental Protection Agency, National
Center for Environmental Assessment, Research Triangle Park, NC.
\265\ U.S. EPA, 2011. Policy Assessment for the Review of the
Particulate Matter National Ambient Air Quality Standards. Research
Triangle Park, NC.
\266\ NRC, 2002. Estimating the Public Health Benefits of
Proposed Air Pollution Regulations. National Research Council.
Washington, DC.
Table 7--Monetized Benefits for the Illustrative Policy Scenario, Relative to the Baseline
[Millions of 2016$]
--------------------------------------------------------------------------------------------------------------------------------------------------------
Values calculated using 3% discount rate Values calculated using 7% discount rate
--------------------------------------------------------------------------------------------------------------------------
Domestic Domestic
climate Ancillary health Total benefits climate Ancillary health co- Total benefits
benefits co-benefits benefits benefits
--------------------------------------------------------------------------------------------------------------------------------------------------------
2025......................... 81 390 to 970........ 470 to 1,000............ 13 360 to 900.............. 370 to 920.
2030......................... 81 490 to 1,200...... 570 to 1,300............ 14 460 to 1,100............ 470 to 1,100.
2035......................... 72 550 to 1,400...... 620 to 1,400............ 13 510 to 1,300............ 520 to 1,300.
--------------------------------------------------------------------------------------------------------------------------------------------------------
Notes: All estimates are rounded to two significant figures, so figures may not sum due to independent rounding. Climate benefits reflect the value of
domestic impacts from CO2 emissions changes. The ancillary health co-benefits reflect the sum of the PM2.5 and ozone co-benefits and reflect the range
based on adult mortality functions (e.g., from Krewski et al. (2009) with Smith et al. (2009) to Lepeule et al. (2012) with Jerrett et al. (2009)).
The health co-benefits do not account for direct exposure to NO2, SO2, and HAP; ecosystem effects; or visibility impairment.
[[Page 32564]]
In general, the EPA is more confident in the size of the risks
estimated from simulated PM2.5 concentrations that coincide
with the bulk of the observed PM concentrations in the epidemiological
studies that are used to estimate the benefits. Likewise, the EPA is
less confident in the risk the EPA estimates from simulated
PM2.5 concentrations that fall below the bulk of the
observed data in these studies.\267\ Furthermore, when setting the 2012
PM NAAQS, the Administrator also acknowledged greater uncertainty in
specifying the ``magnitude and significance'' of PM-related health
risks at PM concentrations below the NAAQS. As noted in the preamble to
the 2012 PM NAAQS final rule, ``EPA concludes that it is not
appropriate to place as much confidence in the magnitude and
significance of the associations over the lower percentiles of the
distribution in each study as at and around the long-term mean
concentration.'' \268\
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\267\ The Federal Register notice for the 2012 PM NAAQS
indicates that ``[i]n considering this additional population level
information, the Administrator recognizes that, in general, the
confidence in the magnitude and significance of an association
identified in a study is strongest at and around the long-term mean
concentration for the air quality distribution, as this represents
the part of the distribution in which the data in any given study
are generally most concentrated. She also recognizes that the degree
of confidence decreases as one moves towards the lower part of the
distribution.'' See 78 FR 3159 (January 15, 2013).
\268\ See 78 FR 3154, January 15, 2013.
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Monetized co-benefits estimates shown here do not include several
important benefit categories, such as direct exposure to
SO2, NOX, and HAP including mercury and hydrogen
chloride. Although the EPA does not have sufficient information or
modeling available to provide monetized estimates of changes in
exposure to these pollutants for this rule, the EPA includes a
qualitative assessment of these unquantified benefits in the RIA. For
more information on the benefits analysis, please refer to the RIA for
these rules, which is available in the rulemaking docket.
IV. Changes to the Implementing Regulations for CAA Section 111(d)
Emission Guidelines
The EPA is finalizing new regulations to implement CAA section
111(d) (implementing regulations) which will be codified at 40 CFR part
60, subpart Ba. The current implementing regulations at 40 CFR part 60,
subpart B, were originally promulgated in 1975.\269\ Section 111(d)(1)
of the CAA explicitly requires that the EPA prescribe regulations
establishing a procedure similar to that under section 110 of the CAA
for states to submit plans to the EPA establishing standards of
performance for existing sources within their jurisdiction. The
implementing regulations have not been significantly revised since
their original promulgation in 1975. Notably, the implementing
regulations do not reflect CAA section 111(d) in its current form as
amended by Congress in 1977, and do not reflect CAA section 110 in its
current form as amended by Congress in 1990. Accordingly, the EPA
believes that certain portions of the implementing regulations do not
appropriately align with CAA section 111(d), contrary to that
provision's mandate that the EPA's regulations be ``similar'' in
procedure to the provisions of section 110. Therefore, the EPA proposed
to promulgate new implementing regulations that are in accordance with
the statute in its current form (See 83 FR 44746-44813). Agencies have
the ability to revisit prior decisions, and the EPA believes it is
appropriate to do so here in light of the potential mismatch between
certain provisions of the implementing regulations and the
statute.\270\ While the preamble for the final new implementing
regulations are part of the same Federal Register document as certain
other Agency rules (specifically, the repeal of the CPP and the
promulgation of the ACE rule), these new implementing regulations are a
separate and distinct rulemaking with its own regulatory text and
response to comments. The implementing regulations are not dependent on
the other final actions contained in this Federal Register document.
---------------------------------------------------------------------------
\269\ See 40 FR 53346.
\270\ The authority to reconsider prior decisions exists in part
because the EPA's interpretations of statutes it administers ``[are
not] instantly carved in stone,'' but must be evaluated ``on a
continuing basis.'' Chevron U.S.A. Inc. v. NRDC, Inc., 467 U.S. 837,
863-64 (1984). Indeed, ``[a]gencies obviously have broad discretion
to reconsider a regulation at any time.'' Clean Air Council v.
Pruitt, 862 F.3d 1, 8-9 (D.C. Cir. 2017).
---------------------------------------------------------------------------
The EPA proposed to largely carry over the current implementing
regulations in 40 CFR part 60, subpart B to a new subpart that will be
applicable to emission guidelines that are finalized either
concurrently with or subsequently to final promulgation of the new
implementing regulations, as well as to state plans or federal plans
associated with such emission guidelines. For purposes of regulatory
certainty, the EPA believes it is appropriate to apply these new
implementing regulations prospectively and retain the existing
implementing regulations as applicable to CAA section 111(d) emission
guidelines and associated state plans or federal plans that were
promulgated previously. Additionally, because the original implementing
regulations also applied to regulations promulgated under CAA section
129 (a provision enacted in the 1990 Amendments that builds on CAA
section 111 but provides specific authority to address facilities that
combust waste), which has its own statutory requirements distinct from
those of CAA section 111(d), the original implementing regulations
under 40 CFR part 60, subpart B continue to apply to EPA-regulations
promulgated under CAA section 129, and any associated state plans and
federal plans. The new implementing regulations are thus applicable
only to CAA section 111(d) regulations and associated state plans
issued solely under the authority of CAA section 111(d).
The EPA is aware that there are a number of cases where state plan
submittal and review processes are still ongoing for existing CAA
section 111(d) emission guidelines. Because the EPA is finalizing new
state plan and federal plan timing requirements under the implementing
regulations to more closely align CAA section 111(d) with both general
CAA section 110 state implementation plan (SIP) and federal
implementation plan (FIP) timing requirements, and because of the EPA's
understanding from experience of the realities of how long these
actions typically take, the EPA is applying the new timing requirements
to both emission guidelines published after the new implementing
regulations are finalized and to all ongoing emission guidelines
already published under CAA section 111(d). The EPA is finalizing
applicability of the timing changes to all ongoing 111(d) regulations
for the same reasons that the EPA is changing the timing requirements
prospectively. Based on years of experience working with states to
develop SIPs under CAA section 110, the EPA believes that given the
comparable amount of work, effort, coordination with sources, and the
time required to develop state plans, more time is necessary for the
process. Giving states three years to develop state plans is more
appropriate than the nine months provided for under the existing
implementing regulations, considering the workload required for state
plan development. These practical considerations regarding the time
needed for state plan development are also applicable and true for
recent emission guidelines where the state
[[Page 32565]]
plan submittal and review process are still ongoing.
For those provisions that are being carried over from the existing
implementing regulations into the new implementing regulations, the EPA
is not intending to substantively change those provisions from their
original promulgation and continues to rely on the record under which
they were promulgated. Therefore, the following provisions remain
substantively the same from their original promulgation: 40 CFR
60.21a(a)-(d), (g)-(j) (Definitions); 60.22a(a), 60.22a(b)(1)-(3),
(b)(5), (c) (Publication of emission guidelines); 60.23a(a)-(c),
(d)(3)-(5), (e)-(h) (Adoption and submittal of state plans; public
hearings); 60.24a(a)-(d), (f) (Standards of performance and compliance
schedules); 60.25a (Emission inventories, source surveillance,
reports); 60.26a (Legal authority); 60.27a(a), (e)-(f) (Actions by the
Administrator); 60.28a(b) (Plan revisions by the state); and 60.29a
(Plan revisions by the Administrator).
As noted at proposal, the EPA is also sensitive to potential
confusion over whether these new implementing regulations would apply
to emission guidelines previously promulgated or to state plans
associated with prior emission guidelines, so the EPA proposed that the
new implementing regulations are applicable only to emission guidelines
and associated plans developed after promulgation of this regulation,
including the emission guidelines being proposed as part of this action
for GHGs and existing designated facilities. The EPA is finalizing this
proposed applicability of the new implementing regulations.
While the EPA is carrying over a number of requirements from the
existing implementing regulations to the new implementing regulations,
the EPA is finalizing specific changes to better align the implementing
regulations with the statute. These changes are reflected in the
regulatory text for the new implementing regulations, and include:
An explicit provision allowing specific emission
guidelines to supersede the requirements of the new implementing
regulations;
Changes to the definition of ``emission guidelines'';
Updated timing requirements for the submission of state
plans;
Updated timing requirements for the EPA's action on state
plans;
Updated timing requirements for the EPA's promulgation of
a federal plan;
Updated timing requirement for when increments of progress
must be included as part of a state plan;
Completeness criteria and a process for determining
completeness of state plan submissions similar to CAA section 110(k)(1)
and (2);
Updated definition replacing ``emission standard'' with
``standard of performance'';
Usage of the internet to satisfy certain public hearing
requirements;
Elimination of the distinction between public health-based
and welfare-based pollutants in emission guidelines; and
Updated provision allowing for consideration of remaining
useful life and other factors to be consistent with CAA section
111(d)(1)(B).
Because the EPA is updating the implementing regulations and many
of the provisions from the existing implementing regulations are being
carried over, the EPA wants to be clear and transparent with regard to
the changes that are being made to the implementing regulations. As
such, the EPA is providing Table 8 that summarizes the changes being
made.
Table 8--Summary of Changes to the Implementing Regulations
------------------------------------------------------------------------
Existing implementing
New implementing regulations--Subpart regulations--Subpart B for all
Ba for all future and ongoing CAA previously promulgated CAA
section 111(d) emission guidelines section 111(d) emission
guidelines
------------------------------------------------------------------------
Explicit authority for a new 111(d) No explicit authority.
emission guidelines requirement to
supersede these implementing
regulations.
Use of term ``standard of performance'' Use of term ``emission
standard''.
``Standard of performance'' allows ``Emission standard'' allows
states to include design, equipment, states to prescribe equipment
work practice, or operational specifications when the EPA
standards when the EPA determines it determines it is clearly
is not feasible to prescribe or impracticable to establish an
enforce a standard of performance, emission standard.
consistent with the requirements of
CAA section 111(h).
State submission timing: 3 years from State submission timing: 9
promulgation of final emission months from promulgation of
guidelines. final emission guidelines.
EPA action on state plan submission EPA action on state plan
timing: 12 months after determination submission timing: 4 months
of completeness. after submittal deadline.
Timing for EPA promulgation of a Timing for EPA promulgation of
federal plan, as appropriate: 2 years a federal plan, as
after finding of plan submission to be appropriate: 6 months after
incomplete, finding of failure to submittal deadline.
submit a plan, or disapproval of state
plan.
Increments of progress are required if Increments of progress are
compliance schedule for a state plan required if compliance
is longer than 24 months after the schedule for a state plan is
plan is due. longer than 12 months after
the plan is due.
Completeness criteria and process for No analogous requirement.
state plan submittals.
Usage of the internet to satisfy No analogous requirement.
certain public hearing requirements.
No distinction made in treatment Different provisions for health-
between health-based and welfare-based based and welfare-based
pollutants; states may consider pollutants; state plans must
remaining useful life and other be as stringent as the EPA's
factors regardless of type of emission guidelines for health-
pollutant. based pollutants unless
variance provision is invoked.
------------------------------------------------------------------------
A. Regulatory Background
The Agency also is, in this action, clarifying the respective roles
of the states and the EPA under section 111(d), including by finalizing
revisions to the regulations implementing that section in 40 CFR part
60 subpart B. CAA section 111(d)(1) states that the EPA ``Administrator
shall prescribe regulations which shall establish a procedure . . .
under which each state shall submit to the Administrator a plan which
(A) establishes standards of performance for any existing source for
any air pollutant . . . to which a standard of performance under this
section would apply if such existing source were a new source, and (B)
provides for the implementation and enforcement of such standards of
performance.'' \271\ CAA section 111(d)(1) also requires the
Administrator to ``permit the State in applying a standard of
performance to any particular source
[[Page 32566]]
under a plan submitted under this paragraph to take into consideration,
among other factors, the remaining useful life of the existing source
to which such standard applies.''\272\
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\271\ See 42 U.S.C. 7411(d).
\272\ Id.
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As the statute provides, the EPA's authorized role under CAA
section 111(d)(1) is to develop a procedure for states to establish
standards of performance for existing sources. Indeed, the Supreme
Court has acknowledged the role and authority of states under CAA
section 111(d): This provision allows ``each State to take the first
cut at determining how best to achieve EPA emissions standards within
its domain.'' \273\ The Court addressed the statutory framework as
implemented through regulation, under which the EPA promulgates
emission guidelines and the states establish performance standards:
``For existing sources, EPA issues emissions guidelines; in compliance
with those guidelines and subject to federal oversight, the States then
issue performance standards for stationary sources within their
jurisdiction, [42 U.S.C.] 7411(d)(1).'' \274\
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\273\ Am. Elec. Power Co. v. Connecticut, 131 S. Ct. 2527, 2539
(2011).
\274\ Id. at 2537-38.
---------------------------------------------------------------------------
As contemplated by CAA section 111(d)(1), states possess the
authority and discretion to establish appropriate standards of
performance for existing sources. CAA section 111(a)(1) defines
``standard of performance'' as ``a standard of emissions of air
pollutants which reflects'' what is commonly referred to as the ``Best
System of Emission Reduction'' or ``BSER''--i.e., ``the degree of
emission limitation achievable through the application of the best
system of emission reduction which (taking into account the cost of
achieving such reduction and any non-air quality health and
environmental impact and energy requirements) the Administrator
determines has been adequately demonstrated.''\275\
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\275\ 42 U.S.C. 7411(a)(1) (emphasis added).
---------------------------------------------------------------------------
In order to effectuate the Agency's role under CAA section
111(d)(1), the EPA promulgated implementing regulations in 1975 to
provide a framework for subsequent EPA rules and state plans under CAA
section 111(d).\276\ The implementing regulations reflect the EPA's
principal task under CAA section 111(d)(1), which is to develop a
procedure for states to establish standards of performance for existing
sources through state plans. The EPA is promulgating an updated version
of the implementing regulations. Under the revised implementing
regulations, the EPA effectuates its role by publishing ``emission
guidelines'' \277\ that, among other things, contain the EPA's
determination of the BSER for the category of existing sources being
regulated.\278\ In undertaking this task, the EPA ``will specify
different emissions guidelines . . . for different sizes, types and
classes of . . . facilities when costs of control, physical
limitations, geographic location, or similar factors make
subcategorization appropriate.'' \279\
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\276\ See 40 CFR part 60, subpart B (hereafter referred to as
the ``implementing regulations'').
\277\ See section IV.B. for the changes to the definition of
``emission guidelines'' as part of the EPA's new implementing
regulations.
\278\ See 40 CFR 60.22a(b) (``Guideline documents published
under this section will provide information for the development of
State plans, such as: . . . (4) An emission guideline that reflects
the application of the best system of emission reduction
(considering the cost of such reduction) that has been adequately
demonstrated.'').
\279\ 40 CFR 60.22(b)(5).
---------------------------------------------------------------------------
In short, under the EPA's revised regulations implementing CAA
section 111(d), which tracks with the existing implementing regulations
in this regard, the guideline documents serve to ``provide information
for the development of state plans.'' \280\ The ``emission
guidelines,'' reflecting the degree of emission limitation achievable
through application of the BSER determined by the Administrator to be
adequately demonstrated, are the principal piece of information states
rely on to develop their plans that establish standards of performance
for existing sources. Additionally, the Act requires that the EPA
permit states to consider, ``among other factors, the remaining useful
life'' of an existing source in applying a standard of performance to
such sources.\281\
---------------------------------------------------------------------------
\280\ 40 CFR 60.22a(b).
\281\ 42 U.S.C. 7411(d)(1).
---------------------------------------------------------------------------
Additionally, while CAA section 111(d)(1) clearly authorizes states
to develop state plans that establish performance standards and
provides states with certain discretion in determining appropriate
standards, CAA section 111(d)(2) provides the EPA specifically a role
with respect to such state plans. This provision authorizes the EPA to
prescribe a plan for a state ``in cases where the State fails to submit
a satisfactory plan.'' \282\ The EPA therefore is charged with
determining whether state plans developed and submitted under CAA
section 111(d)(1) are ``satisfactory,'' and the new implementing
regulations at 40 CFR 60.27a accordingly provide timing and procedural
requirements for the EPA to make such a determination. Just as
guideline documents may provide information for states in developing
plans that establish standards of performance, they may also provide
information for the EPA to consider when reviewing and taking action on
a submitted state plan, as the new implementing regulations at 40 CFR
60.27a(c) reference the ability of the EPA to find a state plan as
``unsatisfactory because the requirements of (the implementing
regulations) have not been met.'' \283\
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\282\ Id. 7411(d)(2)(A).
\283\ See also 40 FR 53343 (``If there is to be substantive
review, there must be criteria for the review, and EPA believes it
is desirable (if not legally required) that the criteria be made
known in advance to the States, to industry, and to the general
public. The emission guidelines, each of which will be subjected to
public comment before final adoption, will serve this function.'').
---------------------------------------------------------------------------
B. Provision for Superseding Implementing Regulations
The EPA proposed to include a provision in the new implementing
regulations that expressly allows for any emission guidelines to
supersede the applicability of the implementing regulations as
appropriate, parallel to a provision contained in the 40 CFR part 63
General Provisions implementing section 112 of the CAA. The EPA cannot
foresee all of the unique circumstances and factors associated with
particular future emission guidelines, and therefore different
requirements may be necessary for a particular 111(d) rulemaking that
the EPA cannot envision at this time. The EPA is finalizing this
provision as proposed.
C. Changes to the Definition of ``Emission Guidelines''
The existing implementation regulations under 40 CFR 60.21(e)
contain a definition of ``emission guidelines,'' defining them as
guidelines which reflect the degree of emission reduction achievable
through the application of the BSER which (taking into account the cost
of such reduction) the Administrator has determined has been adequately
demonstrated for designated facilities. This definition additionally
references that emission guidelines may be set forth in 40 CFR part 60,
subpart C, or a ``final guideline document'' published under 40 CFR
60.22(a). While the implementing regulations do not define the term
``final guideline document,'' 40 CFR 60.22 generally contains a number
of requirements pertaining to the contents of guideline documents,
which are intended to provide information for the development of state
plans.\284\ The preambles for both the proposed and final existing
implementing regulations suggest that ``emission guidelines''
[[Page 32567]]
would be guidelines provided by the EPA that reflect the degree of
emission limitation achievable by the BSER. In the proposal for this
action, the EPA described that it is important to provide information
on such degree of emission limitation in order to guide states in their
establishment of standards of performance as required under CAA section
111(d). However, the EPA also explained that it did not believe
anything in CAA section 111(a)(1) or 111(d) compels the EPA to provide
a presumptive emission standard that reflects the degree of emission
limitation achievable by application of the BSER. Accordingly, as part
of the proposed new implementing regulations, the EPA proposed to re-
define ``emission guidelines'' as final guideline documents published
under 40 CFR 60.22a(a) that include information on the degree of
emission reduction achievable through the application of the BSER which
(taking into account the cost of such reduction and any non-air quality
health and environmental impact and energy requirements) the EPA has
determined has been adequately demonstrated for designated facilities.
---------------------------------------------------------------------------
\284\ See 40 CFR 60.22(b).
---------------------------------------------------------------------------
The EPA received substantial comments regarding this proposed
change to the implementing regulations. Commenters contend that because
CAA section 111(a)(1) requires the EPA to identify the BSER, it is also
the EPA's statutory responsibility to identify the degree of emission
limitation achievable through application of the BSER. According to
commenters, the identification of a BSER without an accompanying
emission limitation reflecting its application is an incomplete
identification of the system of emission reduction itself, as it is the
manner and degree of application of a system that often determines the
quantity and cost of the emission reductions achieved, as well as any
implications for energy requirements--factors that are statutorily a
component of the BSER analysis delegated to the EPA.
The EPA has considered carefully these comments and is not
finalizing the proposed changes to the definition of ``emission
guidelines'' regarding the aspect of such guidelines reflecting the
degree of emission limitation achievable through application of the
BSER. The EPA is finalizing a definition of ``emission guidelines''
that requires them to reflect the degree of emission limitation of
emission achievable through application of the BSER, as well as updates
to the definition consistent with CAA section 111(a)(1) (e.g.,
including a reference to ``energy requirements'' which was not present
in the original definition). Relatedly, the EPA is not finalizing
changes to proposed 40 CFR 60.21a(e) requiring the EPA in emission
guidelines to provide information on the degree of emission limitation
achievable through application of the BSER rather than such degree of
emission limitation itself. While the statute is ambiguous as to whose
role (i.e., the EPA's or the states') it is to determine the degree of
emission limitation achievable through application of the BSER in the
context of standards of performance for existing sources, the EPA
believes it is reasonable to construe this aspect of CAA section 111 as
included within the EPA's obligation to determine the BSER. While
states are better positioned to evaluate source-specific factors and
circumstances in establishing standards of performance, the EPA agrees
with commenters that because the EPA evaluates components such as cost
of emission reductions and environmental impacts on a broader,
systemwide scale when determining the BSER, if a state instead were to
determine the degree of emission limitation achievable for the sources
within its borders, these factors will naturally be re-balanced on a
smaller scale than the EPA's calculation and likely re-define the BSER
in the process. Under the cooperative federalism structure of CAA
section 111, the EPA determines the BSER and the associated level of
stringency (i.e., the degree of emission limitation achievable through
application of the BSER), but states may where appropriate relax this
level of stringency when establishing standards of performance by
accounting for source-specific factors such as remaining useful life.
Accordingly, given the EPA's role in determining the BSER, the EPA is
retaining the requirement from the original implementing regulations
that emission guidelines reflect the degree of emission limitation
achievable through application of the BSER, rather than finalizing the
proposed change that emission guidelines provide information on such
degree of emission limitation achievable.
D. Updates to Timing Requirements
The timing requirements in the existing implementing regulations
for state plan submissions, the EPA's action on state plan submissions,
and the EPA's promulgation of federal plans generally track the timing
requirements for SIPs and federal implementation plans (FIPs) under the
1970 version of the CAA. The existing implementing regulations at
60.23(a)(1) require state plans to be submitted to the EPA within nine
months after publication of final emission guidelines, unless otherwise
specified in emission guidelines. Congress subsequently revised the SIP
and FIP timing requirements in section 110 as part of the 1990 CAA
Amendments. The EPA proposed to update accordingly the timing
requirements regarding state and federal plans under CAA section 111(d)
to be consistent with the current timing requirements for SIPs and FIPs
under section 110.\285\
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\285\ See 84 FR 44746-813.
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Commenters contend that premising the proposed longer timelines for
state plans based on the timelines for SIPs and FIPs is inappropriate
because CAA section 111(d) state plans are narrower in scope and less
complex than section 110 SIPs for a number of reasons. According to
commenters, these reasons include: (1) Because state plans cover one
source category, whereas SIPs cover the different types of sources
whose emissions must be reduced to meet an ambient air quality
standard; (2) because sources under state plans are required to meet an
emission standard expressed as a rate or mass limitation, whereas SIPs
are required to assure that ambient air within a state stay below the
NAAQS, which requires monitoring, modeling, and other complicated
considerations; and (3) EPA already does a substantial percentage of
the work for states in the first instance by determining the BSER and
the degree of emission limitation achievable through application of the
BSER.
While it is correct that the main requirement under CAA section
111(d) is for state plans to establish standards of performance for
designated facilities, and that these existing-source performance
standards are informed by the degree of emission limitation achievable
through application of the BSER that EPA identifies, CAA section
111(d)(1)(B) also requires state plans to include measures that provide
for the implementation and enforcement of such standards. The
implementing regulations further clarify what those measures may be,
such as monitoring, reporting, and recordkeeping requirements, but the
regulations do not specify the types of measures that may satisfy those
requirements (e.g., what type of monitoring is adequate to measure
compliance for a particular source category). Nor do the implementing
regulations contain an exhaustive list of implementation and
enforcement measures given that the nature of a specific state plan, or
individual source subject to a state plan, may necessitate tailored
implementation
[[Page 32568]]
and enforcement measures that the EPA has not, or cannot, prescribe.
Establishment of standards of performance under CAA section 111(d)
state plans also may not be as straightforward as commenters suggest,
as states have the authority to consider remaining useful life and
other factors in applying a standard to a designated facility. While
the EPA defines the degree of emission limitation achievable through
application of the BSER, it is the state that must evaluate whether
there are source-specific considerations which necessitate development
of a different standard than the degree of emission limitation that the
EPA identifies. Commenters do not provide any information suggesting
development of such standards, or development of appropriate
implementation and enforcement measures generally, would take some
shorter period of time to formulate and adopt for submission of a state
plan than the three years the EPA proposed. Therefore, for these
reasons, commenters fail to recognize that while CAA section 111(d) is
not the same as CAA section 110 in the scope of its requirements, state
plans under CAA section 111(d) have their own complexities and
realities that take time to address in the development of state plans.
To the contrary, it has been the EPA's experience over decades in
the SIP context that states often do need and take much, if not all, of
the three-year period under section 110 for the process of developing
and adopting SIPs, even if a required SIP submission is relatively
narrow in scope and nature. To the extent the EPA determines a shorter
timeline is appropriate for the submission of state plans under CAA
section 111(d), for example based on the nature of the pollution
problem involved, the EPA has authority under the implementing
regulations to impose a shorter deadline in specific emission
guidelines. Relatedly, the EPA also proposed that it would be required
to propose a federal plan ``within'' two years, and nothing in this
provision precludes the EPA from promulgating a federal plan at any
period within that span of two years if it deems appropriate.
For all of these reasons and based on its experience, the EPA
believes it is at least reasonable to construe Congress's direction
that it establish a procedure ``similar'' under that of CAA section 110
to authorize it to provide the same timing requirements for state and
federal plans under CAA section 111(d) as Congress provided under CAA
section 110, and indeed that this direction may indicate Congress's
specific intention that the EPA adopt those same timing requirements.
The EPA is finalizing, as part of new implementing regulations, a
requirement that states adopt and submit a state plan to the EPA within
three years after the notice of the availability of the final emission
guidelines. Because of the amount of work, effort, and time required
for developing state plans that include unit-specific standards, and
implementation and enforcement measures for such standards, the EPA
believes that extending the submission date of state plans from nine
months to three years is appropriate. Because states have considerable
flexibility in implementing CAA section 111(d), this timing also allows
states to interact and work with the Agency in the development of their
state plans and to minimize the chances of unexpected issues arising
that could slow down eventual approval of state plans. The EPA notes
that nothing in CAA section 111(d) or the implementing regulations
preclude states from submitting state plans earlier than the applicable
deadline. The EPA also is finalizing to give itself discretion to
determine, in specific emission guidelines, that a shorter time period
for the submission of state plans particular to that emission
guidelines is appropriate. Such authority is consistent with CAA
section 110(a)(1)'s grant of authority to the Administrator to
determine that a period shorter than three years is appropriate for the
submission of particular SIPs implementing the NAAQS.
Following submission of state plans, the EPA will review plan
submittals to determine whether they are ``satisfactory'' pursuant to
CAA section 111(d)(2)(A). Given the flexibilities CAA section 111(d)
and emission guidelines generally accord to states, and the EPA's prior
experience on reviewing and acting on SIPs under section 110, the EPA
is extending the period for EPA review and approval or disapproval of
plans from the four-month period provided in the 1975 implementing
regulations to a twelve-month period after a determination of
completeness (either affirmatively by the EPA or by operation of law,
see section IV.F. for the new implementing regulations' treatment of
completeness) as part of the new implanting regulations. This timeline
will provide adequate time for the EPA to review plans and follow
notice-and-comment rulemaking procedures to ensure an opportunity for
public comment on the EPA's proposed action on a state plan.
The EPA additionally is extending the timing for the EPA to
promulgate a federal plan from six months in the existing implementing
regulations to two years, as part of the new implementing regulations.
This two-year timeline is consistent with the FIP deadline under
section 110(c) of the CAA. The EPA is finalizing provisions in the new
implementing regulations \286\ that provide that it has the authority
to promulgate a federal plan within two years if it:
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\286\ 40 CFR 60.27a(c).
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Finds that a state failed to submit a plan required by
emission guidelines and CAA section 111(d);
Makes a finding that a state plan submission is
incomplete, as described under the new completeness requirements and
criteria in 40 CFR 60.27a(g); or
Disapproves a state plan submission.
E. Compliance Deadlines
The previous implementing regulations required that any compliance
schedule for state plans extending more than 12 months from the date
required for submittal of the plan must include legally enforceable
increments of progress to achieve compliance for each designated
facility or category of facilities.\287\ However, as described in
section IV.D, the EPA is finalizing updates to the timing requirements
for the submission of, and action on, state plans. Consequently, it
follows that the requirement for increments of progress also should be
updated in order to align with the new timelines. Given that the EPA is
finalizing a period of up to 18 months for its action on state plans
(i.e., 12 months from the determination that a state plan submission is
complete, which could occur up to six months after receipt of the state
plan), the EPA believes it is appropriate that the requirement for
increments of progress should attach to plans that contain compliance
periods that are longer than the period provided for the EPA's review
of such plans. This way, sources subject to a plan will have more
certainty that their regulatory compliance obligations would not change
between the period when a state plan is due and when the EPA acts on a
plan. Accordingly, the EPA is requiring that states include provisions
for increments of progress where their state plans contain compliance
schedules longer than 24 months from
[[Page 32569]]
the date when state plans are due for particular emission guidelines.
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\287\ 40 CFR 60.24(e)(1).
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F. Completeness Criteria
Similar to requirements regarding determinations of completeness
under CAA section 110(k)(1), the EPA is finalizing completeness
criteria that provide the Agency with a means to determine whether a
state plan submission includes the minimum elements necessary for the
EPA to act on the submission. The EPA determines completeness simply by
comparing the state's submission against these completeness criteria.
In the case of SIPs under CAA section 110(k)(1), the EPA promulgated
completeness criteria in 1990 at appendix V to 40 CFR part 51.\288\ The
EPA is adopting criteria similar to the criteria set out at section 2.0
of appendix V for determining the completeness of submissions under CAA
section 111(d).
---------------------------------------------------------------------------
\288\ 55 FR 5830; February 16, 1990.
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The EPA notes that the addition of completeness criteria in the
framework regulations does not alter any of the submission requirements
states already have under any applicable emission guidelines. The
completeness criteria in this action are those that would generally
apply to all plan submissions under CAA section 111(d), but specific
emission guidelines may supplement these general criteria with
additional requirements.
The completeness criteria that the EPA is finalizing in this action
can be grouped into administrative materials and technical support. For
administrative materials, the completeness criteria mirror criteria for
SIP submissions because the two programs have similar administrative
processes. Under these criteria, the submittal must include the
following:
(1) A formal letter of submittal from the Governor or the
Governor's designee requesting EPA approval of the plan or revision
thereof;
(2) Evidence that the state has adopted the plan in the state code
or body of regulations; or issued the permit, order, or consent
agreement (hereafter ``document'') in final form. That evidence must
include the date of adoption or final issuance as well as the effective
date of the plan, if different from the adoption/issuance date;
(3) Evidence that the state has the necessary legal authority under
state law to adopt and implement the plan;
(4) A copy of the official state regulation(s) or document(s)
submitted for approval and incorporated by reference into the plan,
signed, stamped, and dated by the appropriate state official indicating
that they are fully adopted and enforceable by the state. The effective
date of the regulation or document must, whenever possible, be
indicated in the document itself. The state's electronic copy must be
an exact duplicate of the hard copy. For revisions to the approved
plan, the submission must indicate the changes made to the approved
plan by redline/strikethrough;
(5) Evidence that the state followed all applicable procedural
requirements of the state's regulations, laws, and constitution in
conducting and completing the adoption/issuance of the plan;
(6) Evidence that public notice was given of the plan or plan
revisions with procedures consistent with the requirements of 40 CFR
60.23, including the date of publication of such notice;
(7) Certification that public hearing(s) were held in accordance
with the information provided in the public notice and the state's laws
and constitution, if applicable and consistent with the public hearing
requirements in 40 CFR 60.23.; and
(8) Compilation of public comments and the state's response
thereto.
In addition, the technical support required for all plans must
include each of the following:
(1) Description of the plan approach and geographic scope;
(2) Identification of each designated facility; identification of
emission standards for each designated facility; and monitoring,
recordkeeping, and reporting requirements that will determine
compliance by each designated facility;
(3) Identification of compliance schedules and/or increments of
progress;
(4) Demonstration that the state plan submission is projected to
achieve emissions performance under the applicable emission guidelines;
(5) Documentation of state recordkeeping and reporting requirements
to determine the performance of the plan as a whole; and
(6) Demonstration that each emission standard is quantifiable,
permanent, verifiable, and enforceable.
The EPA intends that these criteria generally be applicable to all
CAA section 111(d) plans submitted on or after the date on which final
new implementing regulations are promulgated, with the proviso that
specific emission guidelines may provide otherwise.
Consistent with the requirements of CAA section 110(k)(1)(B) for
SIPs, the EPA is finalizing that the EPA will determine whether a state
plan is complete (i.e., meets the completeness criteria) by no later
than 6 months after the date, if any, by which a state is required to
submit the plan. The EPA requires that any plan or plan revision that a
state submits to the EPA, and that has not been determined by the EPA
by the date 6 months after receipt of the submission to have failed to
meet the minimum completeness criteria, shall on that date be deemed by
operation of law to be a complete state plan. Then, as previously
discussed, the EPA relatedly is finalizing that the EPA will act on a
state plan submission through notice-and-comment rulemaking within 12
months after determining a plan is complete either through an
affirmative determination or by operation of law.
When plan submissions do not contain the minimum elements, the EPA
will find that a state has failed to submit a complete plan through the
same process as finding a state has made no submission at all.
Specifically, the EPA will notify the state that its submission is
incomplete and that it therefore has not submitted a required plan, and
the EPA will also publish a finding of failure to submit in the Federal
Register, which triggers the EPA's obligation to promulgate a federal
plan for the state. This determination that a submission is incomplete
and that the state has failed to submit a plan is ministerial in nature
and requires no exercise of discretion or judgment on the Agency's
part, nor does it reflect a judgment on the eventual approvability of
the submitted portions of the plan.
G. Standard of Performance
As previously described, the implementing regulations were
promulgated in 1975 and effectuated the 1970 version of the CAA as it
existed at that time. The 1970 version of CAA section 111(d) required
state plans to include ``emission standards'' for existing sources, and
consequently the implementing regulations refer to this term. However,
as part of the 1977 amendments to the CAA, Congress replaced the term
``emission standard'' in section 111(d) with ``standard of
performance.'' The EPA has not since revised the implementing
regulations to reflect this change in terminology. For clarity's sake
and to better track with statutory requirements, the EPA is determining
to include a definition of ``standard of performance'' as part of the
new implementing regulations, and to consistently refer to this term as
appropriate within those regulations in lieu of referring to an
``emission standard.'' In any event, the current definition of
``emission standard'' in the implementing regulations is incomplete and
would need to be revised. For
[[Page 32570]]
example, the definition encompasses equipment standards, which is an
alternative form of standard provided for in CAA section 111(h) under
certain circumstances. However, CAA section 111(h) provides for other
forms of alternative standards, such as work practice standards, which
are not covered by the existing regulatory definition of ``emission
standard.'' Furthermore, the definition of ``emission standard''
encompasses allowance systems, a reference that was added as part of
the EPA's CAMR.\289\ This rule was vacated by the D.C. Circuit, and
therefore this added component to the definition of ``emission
standard'' had no legal effect because of the Court's vacatur.
Consistent with the Court's opinion, the EPA signaled its intent to
remove this reference as part of its MATS rule.\290\ However, in the
final regulatory text of that rulemaking, the EPA did not take action
removing this reference, and it remains as a vestigial artifact.
---------------------------------------------------------------------------
\289\ 70 FR 28605.
\290\ 77 FR 9304.
---------------------------------------------------------------------------
For these reasons, the EPA is replacing the existing definition of
``emission standard'' with a definition of ``standard of performance''
that tracks with the definition provided for under CAA section
111(a)(1). This means a standard of performance for existing sources
would be defined as a standard for emissions of air pollutants that
reflects the degree of emission limitation achievable through the
application by the state of the BSER which (taking into account the
cost of achieving such reduction and any non-air quality health and
environmental impact and energy requirements) the Administrator
determines has been adequately demonstrated. Several commenters
expressed concern that the proposed definition of ``standard of
performance'' in conjunction with the proposal to strike the reference
to allowance-based systems precluded states from including mass-based
standards of performance. Commenters misunderstand the EPA's proposal,
which did not propose that the new definition of ``standard of
performance'' itself would specify either rate-based or mass-based
standards. As explained at proposal, the new definition is intended to
track the definition of the same term in CAA section 111(a)(1), which
does not specify that standards of performance must be rate or mass-
based. Rather, the EPA may determine in particular emission guidelines
the appropriate form of the standard that a state plan must include,
based on considerations specific to those emission guidelines, such as
the BSER determination, the nature of the pollutant and affected
source-category being regulated, and other relevant factors. The EPA
believes the term ``standard of performance'' alone does not require or
preclude that the standard be in rate or mass-based form, whereas the
prior definition of ``emission standard'' was actually more restrictive
in that it specified rate-based standards and allowance-based systems,
but it did not identify other mass-based standards (such as limits) as
permissible.
Similarly, other commenters stated that the definition in the
implementing regulations should be clarified to encompass unambiguously
rates of any kind (e.g., input-based or output-based), quantities,
concentrations, or percentage reductions, consistent with statutory
language. However, as previously described, the term ``standard of
performance'' alone does not specify which form the standard must take,
and such specification is appropriately made in a particular emission
guideline depending on considerations such as the nature of the BSER,
source category, and pollutant for that rule. Therefore, the EPA is
finalizing the definition of ``standard of performance'' as proposed
and clarifying that the definition alone does not preclude any form of
rate or mass-based standards, but particular emission guidelines may
specify the appropriate form of standards that a state plan under such
guidelines can or cannot include.
The EPA is further finalizing a definition of standard of
performance that incorporates CAA section 111(h)'s allowance for
design, equipment, work practice, or operational standards as
alternative standards of performance under the statutorily prescribed
circumstances. The previous implementing regulations allowed for state
plans to prescribe equipment specifications when emission rates are
``clearly impracticable'' as determined by the EPA. CAA section
111(h)(1), by contrast, allows for alternative standards such as
equipment standards to be promulgated when standards of performance are
``not feasible to prescribe or enforce,'' as those terms are defined
under CAA section 111(h)(2). Given the potential discrepancy between
the conditions under which alternative standards may be established
based on the different terminology used by the statute and existing
implementing regulations, the EPA is establishing in the new
implementing regulations the ``not feasible to prescribe or enforce''
language as the condition under which alternative standards may be
established.
H. Remaining Useful Life and Other Factors Provisions
The EPA believes that the previous implementing regulations'
distinction between public health-based and welfare-based pollutants is
not a distinction unambiguously required under CAA section 111(d) or
any other applicable provision of the statute. The EPA does not believe
the nature of the pollutant in terms of its impacts on health and/or
welfare impact the manner in which it is regulated under this
provision. Particularly, 60.24(c) requires that for health-based
pollutants, a state's standards of performance must be of equivalent
stringency to the EPA's emission guidelines. However, CAA section
111(d)(1)(B) states that the EPA's regulations ``shall'' permit states
to take into account, among other factors, a designated facility's
remaining useful life when establishing an appropriate standard of
performance. In other words, Congress explicitly envisioned under CAA
section 111(d)(1)(B) that states could implement standards of
performance that vary from the EPA's emission guidelines under
appropriate circumstances. Notably, the pre-existing implementing
regulations at Sec. 60.24(f) contain a provision that allows for
states to also apply less stringent standards on sources under certain
circumstances.\291\ However, this provision attaches to the distinction
between health-based and welfare-based pollutants and is available to
the states only under the EPA's discretion. This provision was also
promulgated prior to Congress's addition of the requirement in CAA
section 111(d)(1)(B) that the EPA permit states to take into account
remaining useful life and other factors, and the terms of the
regulatory provision and statutory provision do not match one another,
meaning that this provision may not account for all of the factors
envisioned under CAA section 111(d)(1)(B). Given all of these
considerations, the EPA is finalizing in the new implanting regulations
provisions that remove the distinction between health-based and
welfare-based pollutants and associated requirements contingent upon
this distinction. The EPA is also finalizing a new provision to permit
states to take into account remaining useful life, among other
[[Page 32571]]
factors, in establishing a standard of performance for a particular
designated facility, consistent with CAA section 111(d)(1)(B).
---------------------------------------------------------------------------
\291\ The EPA is hereafter no longer referring to 40 CFR
60.24(f) or its corollary under the new implementing regulations as
the ``variance provision.'' The EPA is instead using the phrase
``remaining useful life and other factors'' when referring to this
provision, as this phrase is consistent with the terminology used in
CAA section 111(d)(1) and better reflects the states' role and
authority in establishing standards of performance under CAA section
111(d) generally.
---------------------------------------------------------------------------
Under this new ``remaining useful life and other factors''
provision, these following factors may be considered, among others:
Unreasonable cost of control resulting from plant age,
location, or basic process design;
Physical impossibility of installing necessary control
equipment; or
Other factors specific to the facility (or class of
facilities) that make application of a less stringent standard or final
compliance time significantly more reasonable.
Given that there are unique attributes and aspects of each
designated facility, it is not possible for the EPA to define each and
every circumstance that states may consider when applying a standard of
performance under CAA section 111(d); accordingly, this list is not
intended to be exclusive of other source-specific factors that a state
may permissibly take into account in developing a satisfactory plan
establishing standards of performance for existing sources within its
jurisdiction. Such ``other factors'' referred to under the remaining
useful life and other factors provision may be ones that influence
decisions to invest in technologies to meet a potential performance
standard. Such other factors may include timing considerations like
payback period for investments, the timing of regulatory requirements,
and other unit-specific criteria. A state may account for remaining
useful life and other factors as it determines appropriate for a
specific source, so long as the state adopts a reasonable approach and
adequately explains that approach in its submission to the EPA.
V. Statutory and Executive Order Reviews
Additional information about these Statutory and Executive Orders
can be found at https://www.epa.gov/laws-regulations/laws-and-executive-orders.
A. Executive Order 12866: Regulatory Planning and Review and Executive
Order 13563: Improving Regulation and Regulatory Review
This final action is an economically significant action that was
submitted to the OMB for review. Any changes made in response to OMB
recommendations have been documented in the docket. The EPA prepared an
analysis of the compliance cost, benefit, and net benefit impacts
associated with this action in the analytical timeframe of 2023 to
2037. This analysis, which is contained in the Regulatory Impact
Analysis (RIA) for this final action, is consistent with Executive
Order 12866 and is available in the docket for this action.
In the RIA for this final action, the Agency provides a full
benefit-cost analysis of an illustrative policy scenario representing
ACE, which models HRI at coal-fired EGUs. This illustrative policy
scenario, described in greater detail in section III.F above,
represents potential outcomes of state determinations of standards of
performance, and compliance with those standards by affected coal-fired
EGUs. Throughout the RIA, the illustrative policy scenario is compared
against a single baseline. As described in Chapter 2 of the RIA, the
EPA believes that a single baseline without the CPP represents a
reasonable future against which to assess the potential impacts of the
ACE rule. The EPA also provides analysis in Chapter 2 of the RIA that
satisfies any need for regulatory impact analysis that may be required
by statute or executive order for the repeal of the CPP.
The EPA evaluates the potential regulatory impacts of the
illustrative policy scenario using the present value (PV) of costs,
benefits, and net benefits, calculated for the timeframe of 2023-2037
from the perspective of 2016, using both a three percent and seven
percent end-of-period discount rate. In addition, the EPA presents the
assessment of costs, benefits, and net benefits for specific snapshot
years, consistent with historic practice. These specific snapshot years
are 2025, 2030, and 2035.
The power industry's ``compliance costs'' are represented in this
analysis as the change in electric power generation costs between the
baseline and illustrative policy scenario, including the cost of
monitoring, reporting, and recordkeeping. The EPA also reports the
impact on climate benefits from changes in CO2 and the
impact on health benefits attributable to changes in SO2,
NOX, and PM2.5 emissions. More detailed
descriptions of the cost and benefit impacts of these rulemakings are
presented in section III.F above.
Table 9 presents the PV and equivalent annualized value (EAV) of
the estimated costs, domestic climate benefits, ancillary health co-
benefits, and net benefits of the illustrative policy scenario for the
timeframe of 2023-2037, relative to the baseline. The EAV represents an
even-flow of figures over the timeframe of 2023-2037 that would yield
an equivalent present value. The EAV is identical for each year of the
analysis, in contrast to the year-specific estimates presented earlier
for the snapshot years of 2025, 2030, and 2035. Table 10 presents the
estimates for the specific snapshot years of 2025, 2030, and 2035.
---------------------------------------------------------------------------
\292\ Smith, R.L., Xu, B., Switzer, P., 2009. Reassessing the
relationship between ozone and short-term mortality in U.S. urban
communities. Inhal. Toxicol. 21 Suppl 2, 37-61. https://doi.org/10.1080/08958370903161612.
\293\ Jerrett, M., Burnett, R.T., Pope, C.A., Ito, K., Thurston,
G., Krewski, D., Shi, Y., Calle, E., Thun, M., 2009. Long-term ozone
exposure and mortality. N. Engl. J. Med. 360, 1085-95. https://doi.org/10.1056/NEJMoa0803894.
Table 9--Present Value and Equivalent Annualized Value of Compliance Costs, Domestic Climate Benefits, Ancillary Health Co-Benefits, and Net Benefits,
Illustrative Policy Scenario, 3 and 7 Percent Discount Rates, 2023-2037
[Millions of 2016$]
--------------------------------------------------------------------------------------------------------------------------------------------------------
Costs Domestic climate Ancillary health co-benefits Net benefits
---------------------- benefits -------------------------------------------------------------------------------
----------------------
3% 7% 3% 7% 3% 7% 3% 7%
--------------------------------------------------------------------------------------------------------------------------------------------------------
Present Value............... 1,600 970 640 62 4,000 to 9,800.... 2,000 to 5,000.... 3,000 to 8,800.... 1,100 to 4,100.
Equivalent Annualized Value. 140 110 53 6.9 330 to 820........ 220 to 550........ 250 to 730........ 120 to 450.
--------------------------------------------------------------------------------------------------------------------------------------------------------
Notes: All estimates are rounded to two significant figures, so figures may not sum due to independent rounding. Climate benefits reflect the value of
domestic impacts from CO2 emissions changes. The ancillary health co-benefits reflect the sum of the PM2.5 and ozone benefits from changes in
electricity sector SO2 and NOX emissions and reflect the range based on adult mortality functions (e.g., from Krewski et al. (2009) with Smith et al.
(2009) \292\ to Lepeule et al. (2012) with Jerrett et al. (2009)).\293\
[[Page 32572]]
Table 10--Compliance Costs, Domestic Climate Benefits, Ancillary Health Co-Benefits, and Net Benefits in 2025, 2030, and 2035, Illustrative Policy
Scenario, 3 and 7 Percent Discount Rates
[Millions of 2016$]
--------------------------------------------------------------------------------------------------------------------------------------------------------
Costs Domestic climate Ancillary health co-benefits Net benefits
---------------------- benefits -------------------------------------------------------------------------------
----------------------
3% 7% 3% 7% 3% 7% 3% 7%
--------------------------------------------------------------------------------------------------------------------------------------------------------
2025........................ 290 290 81 13 390 to 970........ 360 to 900........ 180 to 760........ 84 to 630.
2030........................ 280 280 81 14 490 to 1,200...... 460 to 1,100...... 300 to 1,000...... 200 to 860.
2035........................ 25 25 72 13 550 to 1,400...... 510 to 1,300...... 600 to 1,400...... 500 to 1,200.
--------------------------------------------------------------------------------------------------------------------------------------------------------
Notes: All estimates are rounded to two significant figures, so figures may not sum due to independent rounding. Climate benefits reflect the value of
domestic impacts from CO2 emissions changes. The ancillary health co-benefits reflect the sum of the PM2.5 and ozone benefits from changes in
electricity sector SO2 and NOX emissions and reflect the range based on adult mortality functions (e.g., from Krewski et al. (2009) with Smith et al.
(2009) to Lepeule et al. (2012) with Jerrett et al. (2009)).
In the decision-making process it is useful to consider the change
in benefits due to the targeted pollutant relative to the costs.
Therefore, in Chapter 6 of the RIA for this final action the Agency
presents a comparison of the benefits from the targeted pollutant--
CO2--with the compliance costs. Excluded from this
comparison are the benefits from changes in PM2.5 and ozone
concentrations from changes in SO2, NOX, and
PM2.5 emissions that are projected to accompany changes in
CO2 emissions.
Table 11 presents the PV and EAV of the estimated costs, benefits,
and net benefits associated with the targeted pollutant,
CO2, for the timeframe of 2023-2037, relative to the
baseline. In Table 11 and Table 12, negative net benefits are indicated
with parenthesis.
Table 11--Present Value and Equivalent Annualized Value of Compliance Costs, Climate Benefits, and Net Benefits Associated With Targeted Pollutant
(CO2), Illustrative Policy Scenario, 3 and 7 Percent Discount Rates, 2023-2037
[Millions of 2016$]
--------------------------------------------------------------------------------------------------------------------------------------------------------
Costs Domestic climate benefits Net benefits associated with
---------------------------------------------------------------- the targeted pollutant (CO2)
3% 7% 3% 7% -------------------------------
3% 7%
--------------------------------------------------------------------------------------------------------------------------------------------------------
Present Value........................................... 1,600 970 640 62 (980) (910)
Equivalent Annualized Value............................. 140 110 53 6.9 (82) (100)
--------------------------------------------------------------------------------------------------------------------------------------------------------
Notes: Negative net benefits indicate forgone net benefits. All estimates are rounded to two significant figures, so figures may not sum due to
independent rounding. Climate benefits reflect the value of domestic impacts from CO2 emissions changes. This table does not include estimates of
ancillary health co-benefits from changes in electricity sector SO2 and NOX emissions.
Table 12 presents the costs, benefits, and net benefits associated
with the targeted pollutant for specific years, rather than as a PV or
EAV as found in Table 11.
Table 12--Compliance Costs, Climate Benefits, and Net Benefits Associated With Targeted Pollutant (CO2) in 2025, 2030, and 2035, Illustrative Policy
Scenario, 3 and 7 Percent Discount Rates
[Millions of 2016$]
--------------------------------------------------------------------------------------------------------------------------------------------------------
Costs Domestic climate benefits Net benefits associated with
---------------------------------------------------------------- the targeted pollutant (CO2)
3% 7% 3% 7% -------------------------------
3% 7%
--------------------------------------------------------------------------------------------------------------------------------------------------------
2025.................................................... 290 290 81 13 (210) (280)
2030.................................................... 280 280 81 14 (200) (260)
2035.................................................... 25 25 72 13 47 (11)
--------------------------------------------------------------------------------------------------------------------------------------------------------
Notes: Negative net benefits indicate forgone net benefits. All estimates are rounded to two significant figures, so figures may not sum due to
independent rounding. Climate benefits reflect the value of domestic impacts from CO2 emissions changes. This table does not include estimates of
ancillary health co-benefits from changes in electricity sector SO2 and NOX emissions.
[[Page 32573]]
Throughout the RIA for this action, the EPA considers a number of
sources of uncertainty, both quantitatively and qualitatively. The RIA
also summarizes other potential sources of benefits and costs that may
result from these rules that have not been quantified or monetized.
B. Executive Order 13771: Reducing Regulation and Controlling
Regulatory Costs
This action is expected to be an Executive Order 13771 regulatory
action. Details on the estimated costs of this final rule can be found
in the EPA's analysis of the potential costs and benefits associated
with this action.
C. Paperwork Reduction Act (PRA)
The information collection activities in this rule have been
submitted for approval to the Office of Management and Budget (OMB)
under the PRA. The Information Collection Request (ICR) document that
the EPA prepared has been assigned the EPA ICR number 2503.04. A copy
of the ICR can be found in the docket for this rule, and it is briefly
summarized here. The information collection requirements are not
enforceable until OMB approves them.
The information collection requirements are based on the
recordkeeping and reporting burden associated with developing,
implementing, and enforcing a state plan to limit CO2
emissions from existing sources in the power sector. These
recordkeeping and reporting requirements are specifically authorized by
CAA section 114 (42 U.S.C. 7414). All information submitted to the EPA
pursuant to the recordkeeping and reporting requirements for which a
claim of confidentiality is made is safeguarded according to Agency
policies set forth in 40 CFR part 2, subpart Ba.
Respondents/affected entities: 48--the 48 contiguous states;
Respondent's obligation to respond: The EPA expects state plan
submissions from 43 of the 48 contiguous states and negative
declarations from Vermont, California, Maine, Idaho, and Rhode Island.
Frequency of response: Yearly.
Total estimated burden: 192,640 hours (per year). Burden is defined
at 5 CFR 1320.3(b).
Total estimated cost: $21,500 annualized capital or operation and
maintenance costs.
An agency may not conduct or sponsor, and a person is not required
to respond to, a collection of information unless it displays a
currently valid OMB control number. The OMB control numbers for the
EPA's regulations in 40 CFR are listed in 40 CFR part 9. When OMB
approves this ICR, the Agency will announce the approval in the Federal
Register and publish a technical amendment to 40 CFR part 9 to display
the OMB control number for the approved information collection
activities contained in this final rule.
D. Regulatory Flexibility Act (RFA)
After considering the economic impacts of this rule on small
entities, I certify that this action will not have a significant
economic impact on a substantial number of small entities. This final
rule will not impose any requirements on small entities. Specifically,
emission guidelines established under CAA section 111(d) do not impose
any requirements on regulated entities and, thus, will not have a
significant economic impact upon a substantial number of small
entities. After emission guidelines are promulgated, states develop and
submit to the EPA plans that establish performance standards for
existing sources within their jurisdiction, and it is those state
requirements that could potentially impact small entities. Our analysis
in the accompanying RIA is consistent with the analysis of the
analogous situation arising when the EPA establishes NAAQS, which do
not impose any requirements on regulated entities. As with the
description in the RIA, any impact of a NAAQS on small entities would
only arise when states take subsequent action to maintain and/or
achieve the NAAQS through their state implementation plans.\294\
---------------------------------------------------------------------------
\294\ See American Trucking Ass'n v. EPA, 175 F.3d 1029, 1043-45
(D.C. Cir. 1999) (NAAQS do not have significant impacts upon small
entities because NAAQS themselves impose no regulations upon small
entities).
---------------------------------------------------------------------------
E. Unfunded Mandates Reform Act (UMRA)
This action does not contain an unfunded mandate of $100 million or
more as described in UMRA, 2 U.S.C. 1531-1538, and does not
significantly or uniquely affect small governments.
This action does not contain a federal mandate that may result in
expenditures of $100 million or more for state, local, and tribal
governments, in the aggregate or the private sector in any one year.
Specifically, the emission guidelines proposed under CAA section 111(d)
do not impose any direct compliance requirements on regulated entities,
apart from the requirement for states to develop state plans. The
burden for states to develop state plans in the three-year period
following promulgation of the rule was estimated and is listed in
section IV.A. above, but this burden is estimated to be below $100
million in any one year. Thus, this rule is not subject to the
requirements of section 203 or section 205 of the Unfunded Mandates
Reform Act (UMRA).
This rule is also not subject to the requirements of section 203 of
UMRA because, as described in 2 U.S.C. 1531-38, it contains no
regulatory requirements that might significantly or uniquely affect
small governments. This action imposes no enforceable duty on any
state, local, or tribal governments or the private sector.
F. Executive Order 13132: Federalism
The EPA has concluded that this action may have federalism
implications because it might impose substantial direct compliance
costs on state or local governments, and the federal government will
not provide the funds necessary to pay those costs. The development of
state plans will entail many hours of staff time to develop and
coordinate programs for compliance with the proposed rule, as well as
time to work with state legislatures as appropriate, and develop a plan
submittal. The Agency understands the burden that these actions will
have on states and is committing to providing aid and guidance to
states through the plan development process. The EPA will be available
at the states initiative to provide clarity for developing plans,
including standard of performance setting and compliance initiatives.
G. Executive Order 13175: Consultation and Coordination With Indian
Tribal Governments
This action does not have tribal implications as specified in
Executive Order 13175. It would not impose substantial direct
compliance costs on tribal governments that have designated facilities
located in their area of Indian country. Tribes are not required to
develop plans to implement the guidelines under CAA section 111(d) for
designated facilities. The EPA notes that this final rule does not
directly impose specific requirements on EGU sources, including those
located in Indian country; before developing any standards of
performance for existing sources on tribal land, the EPA would consult
with leaders from affected tribes. This action also will not have
substantial direct costs or impacts on the relationship between the
federal government and Indian tribes or on the distribution of power
and responsibilities between the federal government and Indian tribes,
as
[[Page 32574]]
specified in Executive Order 13175. Thus, Executive Order 13175 does
not apply to the action.
Executive Order 13175 requires the EPA to develop an accountable
process to ensure ``meaningful and timely input by tribal officials in
the development of regulatory policies that have tribal implications.''
The EPA has concluded that this action does not have tribal
implications as specified in E.O. 13175. It would not impose
substantial direct compliance costs on tribal governments that have
designated facilities located in their area of Indian country. Tribes
are not required to develop plans to implement the guidelines under CAA
section 111(d) for designated facilities. This action also will not
have substantial direct cost or impacts on the relationship between the
federal government and Indian tribes or on the distribution of power
and responsibilities between the federal government and Indian tribes,
as specified in Executive Order 13175.
Consistent with EPA Policy on Consultation and Coordination with
Indian Tribes, the EPA consulted with tribal officials during the
development of this action to provide an opportunity to have meaningful
and timely input. On August 24, 2018, consultation letters were sent to
584 tribal leaders that provided information and offered consultation
regarding the EPA's development of this rule. On August 30, 2018, the
EPA provided a presentation overview on the Proposal: Affordable Clean
Energy (Rule) on the monthly National Tribal Air Association/EPA Air
Policy call. At the request of the tribes, two consultation meetings
were held: One with the Navajo Nation on October 11, 2018, and one with
the Samish Indian Nation on October 16, 2018. The Samish Indian Nation
opened their consultation to other tribes--also participating in this
meeting for informational purposes only were seven tribes (Blue Lake
Rancheria, Cherokee Nation Environmental Program, La Jolla Band of
Luise[ntilde]o Indians, Leech Lake Band of Ojibwe, Muscogee (Creek)
Nation Office of Environmental Services, Nez Perce Tribe, The Quapaw
Tribe) and the National Tribal Air Association. In the meetings, the
tribes were presented information from the proposal. The tribes asked
general clarifying questions and indicated that they would submit
formal comments. Comments on the proposal were received from the Navajo
Nation, the Samish Indian Nation, Blue Lake Rancheria, Leech Lake Band
of Ojibwe, Nez Perce Tribe, and the National Tribal Air Association, in
addition to the Keweenaw Bay Indian Community, the Fond du Lac Band,
the 1854 Treaty Authority, and the Sac and Fox Nation. Tribal
commenters insisted on meaningful government-to-government consultation
with potentially impacted tribes, and that the final rule require
states to consult with indigenous and vulnerable communities as they
develop state plans. More specific comments can be found in the docket.
H. Executive Order 13045: Protection of Children From Environmental
Health Risks and Safety Risks
This action is subject to Executive Order 13045 because it is an
economically significant regulatory action as defined by Executive
Order 12866. The EPA believes that this action will achieve
CO2 emission reductions resulting from implementation of
these emission guidelines, as well as ozone and PM2.5
emission reductions as a co-benefit, and will further improve
children's health.
Moreover, this action does not affect the level of public health
and environmental protection already being provided by existing NAAQS,
including ozone and PM2.5, and other mechanisms in the CAA.
This action does not affect applicable local, state, or federal
permitting or air quality management programs that will continue to
address areas with degraded air quality and maintain the air quality in
areas meeting current standards. Areas that need to reduce criteria air
pollution to meet the NAAQS will still need to rely on control
strategies to reduce emissions.
I. Executive Order 13211: Actions Concerning Regulations That
Significantly Affect Energy Supply, Distribution, or Use
This action, which is a significant regulatory energy action under
Executive Order 12866, is likely to have a significant effect on the
supply, distribution, or use of energy. Specifically, the EPA estimated
in the RIA that the rule could result in more than a one percent
decrease in coal production in 2025 (or a reduction of more than a 5
million tons per year) and less than a one percent reduction in natural
gas use in the power sector (or more than a 25 million MCF reduction in
production on an annual basis). The energy impacts the EPA estimates
from these rules may be under- or over-estimates of the true energy
impacts associated with this action. For more information on the
estimated energy effects, please refer to the RIA for these
rulemakings, which is in the public docket.
J. National Technology Transfer and Advancement Act (NTTAA)
This rulemaking does not involve technical standards.
K. Executive Order 12898: Federal Actions To Address Environmental
Justice in Minority Populations and Low-Income Populations
The EPA believes that this action is unlikely to have
disproportionately high and adverse human health or environmental
effects on minority populations, low-income populations and/or
indigenous peoples as specified in Executive Order 12898 (59 FR 7629,
February 16, 1994). The EPA believes that this action will achieve
CO2 emission reductions resulting from implementation of
these final guidelines, as well as ozone and PM2.5 emission
reductions as a co-benefit, and will further improve environmental
justice communities' health as discussed in the RIA.
With regards to the repeal, Chapter 2 of the RIA explains why the
EPA believes that the power sector is already on path to achieve the
CO2 reductions required by the CPP, therefore the EPA does
not believe it would have any significant impact on EJ effected
communities.
With regards to ACE, as described in Chapter 4 of the RIA, the EPA
finds that most of the eastern U.S. will experience PM and ozone-
related benefits as a result of this action. While the EPA expects
areas in the southeastern U.S. to experience a modest increase in fine
particle levels, areas including the Midwest will experience reduced
levels of PM, yielding significant benefits in the form of fewer
premature deaths and illnesses. On balance, the positive benefits of
this action significantly outweigh the estimated disbenefits.
Moreover, this action does not affect the level of public health
and environmental protection already being provided by existing NAAQS,
including ozone and PM2.5, and other mechanisms in the CAA.
L. Congressional Review Act (CRA)
This action is subject to the CRA, and the EPA will submit a rule
report to each House of the Congress and to the Comptroller General of
the United States. This action is a ``major rule'' as defined by 5
U.S.C. 804(2).
VI. Statutory Authority
The statutory authority for this action is provided by sections
111, 301, and 307(d)(1)(V) of the CAA, as amended (42 U.S.C. 7411,
7601, 7607(d)(1)(V)). This action is also subject to section 307(d) of
the CAA (42 U.S.C. 7607(d)).
[[Page 32575]]
List of Subjects in 40 CFR Part 60
Environmental protection, Administrative practice and procedure,
Air pollution control, Intergovernmental relations, Reporting and
recordkeeping requirements.
Dated: June 19, 2019.
Andrew R. Wheeler,
Administrator.
Therefore, 40 CFR chapter I is amended as follows:
PART 60--STANDARDS OF PERFORMANCE FOR NEW STATIONARY SOURCES
0
1. The authority citation for part 60 continues to read as follows:
Authority: 42 U.S.C. 7401 et seq.
0
2. Add subpart Ba to read as follows:
Subpart Ba--Adoption and Submittal of State Plans for Designated
Facilities
Sec.
60.20a Applicability.
60.21a Definitions.
60.22a Publication of emission guidelines.
60.23a Adoption and submittal of State plans; public hearings.
60.24a Standards of performance and compliance schedules.
60.25a Emission inventories, source surveillance, reports,
60.26a Legal authority.
60.27a Actions by the Administrator.
60.28a Plan revisions by the State.
60.29a Plan revisions by the Administrator.
Sec. 60.20a Applicability.
(a) The provisions of this subpart apply upon publication of a
final emission guideline under Sec. 60.22a(a) if implementation of
such final guideline is ongoing as of July 8, 2019 or if the final
guideline is published after July 8, 2019.
(1) Each emission guideline promulgated under this part is subject
to the requirements of this subpart, except that each emission
guideline may include specific provisions in addition to or that
supersede requirements of this subpart. Each emission guideline must
identify explicitly any provision of this subpart that is superseded.
(2) Terms used throughout this part are defined in Sec. 60.21a or
in the Clean Air Act (Act) as amended in 1990, except that emission
guidelines promulgated as individual subparts of this part may include
specific definitions in addition to or that supersede definitions in
Sec. 60.21a.
(b) No standard of performance or other requirement established
under this part shall be interpreted, construed, or applied to diminish
or replace the requirements of a more stringent emission limitation or
other applicable requirement established by the Administrator pursuant
to other authority of the Act (section 112, Part C or D, or any other
authority of this Act), or a standard issued under State authority.
Sec. 60.21a Definitions.
Terms used but not defined in this subpart shall have the meaning
given them in the Act and in subpart A of this part:
(a) Designated pollutant means any air pollutant, the emissions of
which are subject to a standard of performance for new stationary
sources, but for which air quality criteria have not been issued and
that is not included on a list published under section 108(a) or
section 112(b)(1)(A) of the Act.
(b) Designated facility means any existing facility (see Sec.
60.2) which emits a designated pollutant and which would be subject to
a standard of performance for that pollutant if the existing facility
were an affected facility (see Sec. 60.2).
(c) Plan means a plan under section 111(d) of the Act which
establishes standards of performance for designated pollutants from
designated facilities and provides for the implementation and
enforcement of such standards of performance.
(d) Applicable plan means the plan, or most recent revision
thereof, which has been approved under Sec. 60.27a(b) or promulgated
under Sec. 60.27a(d).
(e) Emission guideline means a guideline set forth in subpart C of
this part, or in a final guideline document published under Sec.
60.22a(a), which reflects the degree of emission limitation achievable
through the application of the best system of emission reduction which
(taking into account the cost of such reduction and any non-air quality
health and environmental impact and energy requirements) the
Administrator has determined has been adequately demonstrated for
designated facilities.
(f) Standard of performance means a standard for emissions of air
pollutants which reflects the degree of emission limitation achievable
through the application of the best system of emission reduction which
(taking into account the cost of achieving such reduction and any
nonair quality health and environmental impact and energy requirements)
the Administrator determines has been adequately demonstrated,
including, but not limited to a legally enforceable regulation setting
forth an allowable rate or limit of emissions into the atmosphere, or
prescribing a design, equipment, work practice, or operational
standard, or combination thereof.
(g) Compliance schedule means a legally enforceable schedule
specifying a date or dates by which a source or category of sources
must comply with specific standards of performance contained in a plan
or with any increments of progress to achieve such compliance.
(h) Increments of progress means steps to achieve compliance which
must be taken by an owner or operator of a designated facility,
including:
(1) Submittal of a final control plan for the designated facility
to the appropriate air pollution control agency;
(2) Awarding of contracts for emission control systems or for
process modifications, or issuance of orders for the purchase of
component parts to accomplish emission control or process modification;
(3) Initiation of on-site construction or installation of emission
control equipment or process change;
(4) Completion of on-site construction or installation of emission
control equipment or process change; and
(5) Final compliance.
(i) Region means an air quality control region designated under
section 107 of the Act and described in part 81 of this chapter.
(j) Local agency means any local governmental agency.
Sec. 60.22a Publication of emission guidelines.
(a) Concurrently upon or after proposal of standards of performance
for the control of a designated pollutant from affected facilities, the
Administrator will publish a draft emission guideline containing
information pertinent to control of the designated pollutant from
designated facilities. Notice of the availability of the draft emission
guideline will be published in the Federal Register and public comments
on its contents will be invited. After consideration of public comments
and upon or after promulgation of standards of performance for control
of a designated pollutant from affected facilities, a final emission
guideline will be published and notice of its availability will be
published in the Federal Register.
(b) Emission guidelines published under this section will provide
information for the development of State plans, such as:
(1) Information concerning known or suspected endangerment of
public health or welfare caused, or contributed to, by the designated
pollutant.
(2) A description of systems of emission reduction which, in the
[[Page 32576]]
judgment of the Administrator, have been adequately demonstrated.
(3) Information on the degree of emission limitation which is
achievable with each system, together with information on the costs,
nonair quality health environmental effects, and energy requirements of
applying each system to designated facilities.
(4) Incremental periods of time normally expected to be necessary
for the design, installation, and startup of identified control
systems.
(5) The degree of emission limitation achievable through the
application of the best system of emission reduction (considering the
cost of such achieving reduction and any nonair quality health and
environmental impact and energy requirements) that has been adequately
demonstrated for designated facilities, and the time within which
compliance with standards of performance can be achieved. The
Administrator may specify different degrees of emission limitation or
compliance times or both for different sizes, types, and classes of
designated facilities when costs of control, physical limitations,
geographical location, or similar factors make subcategorization
appropriate.
(6) Such other available information as the Administrator
determines may contribute to the formulation of State plans.
(c) The emission guidelines and compliance times referred to in
paragraph (b)(5) of this section will be proposed for comment upon
publication of the draft guideline document, and after consideration of
comments will be promulgated in subpart C of this part with such
modifications as may be appropriate.
Sec. 60.23a Adoption and submittal of State plans; public hearings.
(a)(1) Unless otherwise specified in the applicable subpart, within
three years after notice of the availability of a final emission
guideline is published under Sec. 60.22a(a), each State shall adopt
and submit to the Administrator, in accordance with Sec. 60.4, a plan
for the control of the designated pollutant to which the emission
guideline applies.
(2) At any time, each State may adopt and submit to the
Administrator any plan revision necessary to meet the requirements of
this subpart or an applicable subpart of this part.
(b) If no designated facility is located within a State, the State
shall submit a letter of certification to that effect to the
Administrator within the time specified in paragraph (a) of this
section. Such certification shall exempt the State from the
requirements of this subpart for that designated pollutant.
(c) The State shall, prior to the adoption of any plan or revision
thereof, conduct one or more public hearings within the State on such
plan or plan revision in accordance with the provisions under this
section.
(d) Any hearing required by paragraph (c) of this section shall be
held only after reasonable notice. Notice shall be given at least 30
days prior to the date of such hearing and shall include:
(1) Notification to the public by prominently advertising the date,
time, and place of such hearing in each region affected. This
requirement may be satisfied by advertisement on the internet;
(2) Availability, at the time of public announcement, of each
proposed plan or revision thereof for public inspection in at least one
location in each region to which it will apply. This requirement may be
satisfied by posting each proposed plan or revision on the internet;
(3) Notification to the Administrator;
(4) Notification to each local air pollution control agency in each
region to which the plan or revision will apply; and
(5) In the case of an interstate region, notification to any other
State included in the region.
(e) The State may cancel the public hearing through a method it
identifies if no request for a public hearing is received during the 30
day notification period under paragraph (d) of this section and the
original notice announcing the 30 day notification period states that
if no request for a public hearing is received the hearing will be
cancelled; identifies the method and time for announcing that the
hearing has been cancelled; and provides a contact phone number for the
public to call to find out if the hearing has been cancelled.
(f) The State shall prepare and retain, for a minimum of 2 years, a
record of each hearing for inspection by any interested party. The
record shall contain, as a minimum, a list of witnesses together with
the text of each presentation.
(g) The State shall submit with the plan or revision:
(1) Certification that each hearing required by paragraph (c) of
this section was held in accordance with the notice required by
paragraph (d) of this section; and
(2) A list of witnesses and their organizational affiliations, if
any, appearing at the hearing and a brief written summary of each
presentation or written submission.
(h) Upon written application by a State agency (through the
appropriate Regional Office), the Administrator may approve State
procedures designed to insure public participation in the matters for
which hearings are required and public notification of the opportunity
to participate if, in the judgment of the Administrator, the
procedures, although different from the requirements of this subpart,
in fact provide for adequate notice to and participation of the public.
The Administrator may impose such conditions on his approval as he
deems necessary. Procedures approved under this section shall be deemed
to satisfy the requirements of this subpart regarding procedures for
public hearings.
Sec. 60.24a Standards of performance and compliance schedules.
(a) Each plan shall include standards of performance and compliance
schedules.
(b) Standards of performance shall either be based on allowable
rate or limit of emissions, except when it is not feasible to prescribe
or enforce a standard of performance. The EPA shall identify such cases
in the emission guidelines issued under Sec. 60.22a. Where standards
of performance prescribing design, equipment, work practice, or
operational standard, or combination thereof are established, the plan
shall, to the degree possible, set forth the emission reductions
achievable by implementation of such standards, and may permit
compliance by the use of equipment determined by the State to be
equivalent to that prescribed.
(1) Test methods and procedures for determining compliance with the
standards of performance shall be specified in the plan. Methods other
than those specified in appendix A to this part or an applicable
subpart of this part may be specified in the plan if shown to be
equivalent or alternative methods as defined in Sec. 60.2.
(2) Standards of performance shall apply to all designated
facilities within the State. A plan may contain standards of
performance adopted by local jurisdictions provided that the standards
are enforceable by the State.
(c) Except as provided in paragraph (e) of this section, standards
of performance shall be no less stringent than the corresponding
emission guideline(s) specified in subpart C of this part, and final
compliance shall be required as expeditiously as practicable, but no
later than the compliance times specified in an applicable subpart of
this part.
(d) Any compliance schedule extending more than 24 months from the
date required for submittal of the
[[Page 32577]]
plan must include legally enforceable increments of progress to achieve
compliance for each designated facility or category of facilities.
Unless otherwise specified in the applicable subpart, increments of
progress must include, where practicable, each increment of progress
specified in Sec. 60.21a(h) and must include such additional
increments of progress as may be necessary to permit close and
effective supervision of progress toward final compliance.
(e) In applying a standard of performance to a particular source,
the State may take into consideration factors, such as the remaining
useful life of such source, provided that the State demonstrates with
respect to each such facility (or class of such facilities):
(1) Unreasonable cost of control resulting from plant age,
location, or basic process design;
(2) Physical impossibility of installing necessary control
equipment; or
(3) Other factors specific to the facility (or class of facilities)
that make application of a less stringent standard or final compliance
time significantly more reasonable.
(f) Nothing in this subpart shall be construed to preclude any
State or political subdivision thereof from adopting or enforcing:
(1) Standards of performance more stringent than emission
guidelines specified in subpart C of this part or in applicable
emission guidelines; or
(2) Compliance schedules requiring final compliance at earlier
times than those specified in subpart C of this part or in applicable
emission guidelines.
Sec. 60.25a Emission inventories, source surveillance, reports.
(a) Each plan shall include an inventory of all designated
facilities, including emission data for the designated pollutants and
information related to emissions as specified in appendix D to this
part. Such data shall be summarized in the plan, and emission rates of
designated pollutants from designated facilities shall be correlated
with applicable standards of performance. As used in this subpart,
``correlated'' means presented in such a manner as to show the
relationship between measured or estimated amounts of emissions and the
amounts of such emissions allowable under applicable standards of
performance.
(b) Each plan shall provide for monitoring the status of compliance
with applicable standards of performance. Each plan shall, as a
minimum, provide for:
(1) Legally enforceable procedures for requiring owners or
operators of designated facilities to maintain records and periodically
report to the State information on the nature and amount of emissions
from such facilities, and/or such other information as may be necessary
to enable the State to determine whether such facilities are in
compliance with applicable portions of the plan. Submission of
electronic documents shall comply with the requirements of 40 CFR part
3 (Electronic reporting).
(2) Periodic inspection and, when applicable, testing of designated
facilities.
(c) Each plan shall provide that information obtained by the State
under paragraph (b) of this section shall be correlated with applicable
standards of performance (see Sec. 60.25a(a)) and made available to
the general public.
(d) The provisions referred to in paragraphs (b) and (c) of this
section shall be specifically identified. Copies of such provisions
shall be submitted with the plan unless:
(1) They have been approved as portions of a preceding plan
submitted under this subpart or as portions of an implementation plan
submitted under section 110 of the Act; and
(2) The State demonstrates:
(i) That the provisions are applicable to the designated
pollutant(s) for which the plan is submitted, and
(ii) That the requirements of Sec. 60.26a are met.
(e) The State shall submit reports on progress in plan enforcement
to the Administrator on an annual (calendar year) basis, commencing
with the first full report period after approval of a plan or after
promulgation of a plan by the Administrator. Information required under
this paragraph must be included in the annual report required by Sec.
51.321 of this chapter.
(f) Each progress report shall include:
(1) Enforcement actions initiated against designated facilities
during the reporting period, under any standard of performance or
compliance schedule of the plan.
(2) Identification of the achievement of any increment of progress
required by the applicable plan during the reporting period.
(3) Identification of designated facilities that have ceased
operation during the reporting period.
(4) Submission of emission inventory data as described in paragraph
(a) of this section for designated facilities that were not in
operation at the time of plan development but began operation during
the reporting period.
(5) Submission of additional data as necessary to update the
information submitted under paragraph (a) of this section or in
previous progress reports.
(6) Submission of copies of technical reports on all performance
testing on designated facilities conducted under paragraph (b)(2) of
this section, complete with concurrently recorded process data.
Sec. 60.26a Legal authority.
(a) Each plan or plan revision shall show that the State has legal
authority to carry out the plan or plan revision, including authority
to:
(1) Adopt standards of performance and compliance schedules
applicable to designated facilities.
(2) Enforce applicable laws, regulations, standards, and compliance
schedules, and seek injunctive relief.
(3) Obtain information necessary to determine whether designated
facilities are in compliance with applicable laws, regulations,
standards, and compliance schedules, including authority to require
recordkeeping and to make inspections and conduct tests of designated
facilities.
(4) Require owners or operators of designated facilities to
install, maintain, and use emission monitoring devices and to make
periodic reports to the State on the nature and amounts of emissions
from such facilities; also authority for the State to make such data
available to the public as reported and as correlated with applicable
standards of performance.
(b) The provisions of law or regulations which the State determines
provide the authorities required by this section shall be specifically
identified. Copies of such laws or regulations shall be submitted with
the plan unless:
(1) They have been approved as portions of a preceding plan
submitted under this subpart or as portions of an implementation plan
submitted under section 110 of the Act; and
(2) The State demonstrates that the laws or regulations are
applicable to the designated pollutant(s) for which the plan is
submitted.
(c) The plan shall show that the legal authorities specified in
this section are available to the State at the time of submission of
the plan. Legal authority adequate to meet the requirements of
paragraphs (a)(3) and (4) of this section may be delegated to the State
under section 114 of the Act.
(d) A State governmental agency other than the State air pollution
control agency may be assigned responsibility for carrying out a
portion of a plan if the plan demonstrates to the Administrator's
satisfaction that the State governmental agency has the legal
[[Page 32578]]
authority necessary to carry out that portion of the plan.
(e) The State may authorize a local agency to carry out a plan, or
portion thereof, within the local agency's jurisdiction if the plan
demonstrates to the Administrator's satisfaction that the local agency
has the legal authority necessary to implement the plan or portion
thereof, and that the authorization does not relieve the State of
responsibility under the Act for carrying out the plan or portion
thereof.
Sec. 60.27a Actions by the Administrator.
(a) The Administrator may, whenever he determines necessary,
shorten the period for submission of any plan or plan revision or
portion thereof.
(b) After determination that a plan or plan revision is complete
per the requirements of Sec. 60.27a(g), the Administrator will take
action on the plan or revision. The Administrator will, within twelve
months of finding that a plan or plan revision is complete, approve or
disapprove such plan or revision or each portion thereof.
(c) The Administrator will promulgate, through notice-and-comment
rulemaking, a federal plan, or portion thereof, at any time within two
years after the Administrator:
(1) Finds that a State fails to submit a required plan or plan
revision or finds that the plan or plan revision does not satisfy the
minimum criteria under paragraph (g) of this section; or
(2) Disapproves the required State plan or plan revision or any
portion thereof, as unsatisfactory because the applicable requirements
of this subpart or an applicable subpart under this part have not been
met.
(d) The Administrator will promulgate a final federal plan as
described in paragraph (c) of this section unless the State corrects
the deficiency, and the Administrator approves the plan or plan
revision, before the Administrator promulgates such federal plan.
(e)(1) Except as provided in paragraph (e)(2) of this section, a
federal plan promulgated by the Administrator under this section will
prescribe standards of performance of the same stringency as the
corresponding emission guideline(s) specified in the final emission
guideline published under Sec. 60.22a(a) and will require compliance
with such standards as expeditiously as practicable but no later than
the times specified in the emission guideline.
(2) Upon application by the owner or operator of a designated
facility to which regulations proposed and promulgated under this
section will apply, the Administrator may provide for the application
of less stringent standards of performance or longer compliance
schedules than those otherwise required by this section in accordance
with the criteria specified in Sec. 60.24a(e).
(f) Prior to promulgation of a federal plan under paragraph (d) of
this section, the Administrator will provide the opportunity for at
least one public hearing in either:
(1) Each State that failed to submit a required complete plan or
plan revision, or whose required plan or plan revision is disapproved
by the Administrator; or
(2) Washington, DC or an alternate location specified in the
Federal Register.
(g) Each plan or plan revision that is submitted to the
Administrator shall be reviewed for completeness as described in
paragraphs (g)(1) through (3) of this section.
(1) General. Within 60 days of the Administrator's receipt of a
state submission, but no later than 6 months after the date, if any, by
which a State is required to submit the plan or revision, the
Administrator shall determine whether the minimum criteria for
completeness have been met. Any plan or plan revision that a State
submits to the EPA, and that has not been determined by the EPA by the
date 6 months after receipt of the submission to have failed to meet
the minimum criteria, shall on that date be deemed by operation of law
to meet such minimum criteria. Where the Administrator determines that
a plan submission does not meet the minimum criteria of this paragraph,
the State will be treated as not having made the submission and the
requirements of Sec. 60.27a regarding promulgation of a federal plan
shall apply.
(2) Administrative criteria. In order to be deemed complete, a
State plan must contain each of the following administrative criteria:
(i) A formal letter of submittal from the Governor or her designee
requesting EPA approval of the plan or revision thereof;
(ii) Evidence that the State has adopted the plan in the state code
or body of regulations; or issued the permit, order, consent agreement
(hereafter ``document'') in final form. That evidence must include the
date of adoption or final issuance as well as the effective date of the
plan, if different from the adoption/issuance date;
(iii) Evidence that the State has the necessary legal authority
under state law to adopt and implement the plan;
(iv) A copy of the actual regulation, or document submitted for
approval and incorporation by reference into the plan, including
indication of the changes made (such as redline/strikethrough) to the
existing approved plan, where applicable. The submittal must be a copy
of the official state regulation or document signed, stamped and dated
by the appropriate state official indicating that it is fully
enforceable by the State. The effective date of the regulation or
document must, whenever possible, be indicated in the document itself.
The State's electronic copy must be an exact duplicate of the hard
copy. If the regulation/document provided by the State for approval and
incorporation by reference into the plan is a copy of an existing
publication, the State submission should, whenever possible, include a
copy of the publication cover page and table of contents;
(v) Evidence that the State followed all of the procedural
requirements of the state's laws and constitution in conducting and
completing the adoption and issuance of the plan;
(vi) Evidence that public notice was given of the proposed change
with procedures consistent with the requirements of Sec. 60.23a,
including the date of publication of such notice;
(vii) Certification that public hearing(s) were held in accordance
with the information provided in the public notice and the State's laws
and constitution, if applicable and consistent with the public hearing
requirements in Sec. 60.23a;
(viii) Compilation of public comments and the State's response
thereto; and
(ix) Such other criteria for completeness as may be specified by
the Administrator under the applicable emission guidelines.
(3) Technical criteria. In order to be deemed complete, a State
plan must contain each of the following technical criteria:
(i) Description of the plan approach and geographic scope;
(ii) Identification of each designated facility, identification of
standards of performance for the designated facilities, and monitoring,
recordkeeping and reporting requirements that will determine compliance
by each designated facility;
(iii) Identification of compliance schedules and/or increments of
progress;
(iv) Demonstration that the State plan submittal is projected to
achieve emissions performance under the applicable emission guidelines;
(v) Documentation of state recordkeeping and reporting requirements
to determine the performance of the plan as a whole; and
[[Page 32579]]
(vi) Demonstration that each emission standard is quantifiable,
non-duplicative, permanent, verifiable, and enforceable.
Sec. 60.28a Plan revisions by the State.
(a) Any revision to a state plan shall be adopted by such State
after reasonable notice and public hearing. For plan revisions required
in response to a revised emission guideline, such plan revisions shall
be submitted to the Administrator within three years, or shorter if
required by the Administrator, after notice of the availability of a
final revised emission guideline is published under Sec. 60.22a. All
plan revisions must be submitted in accordance with the procedures and
requirements applicable to development and submission of the original
plan.
(b) A revision of a plan, or any portion thereof, shall not be
considered part of an applicable plan until approved by the
Administrator in accordance with this subpart.
Sec. 60.29a Plan revisions by the Administrator.
After notice and opportunity for public hearing in each affected
State, the Administrator may revise any provision of an applicable
federal plan if:
(a) The provision was promulgated by the Administrator; and
(b) The plan, as revised, will be consistent with the Act and with
the requirements of this subpart.
Subpart UUUU [Removed]
0
3. Remove subpart UUUU.
0
4. Add subpart UUUUa to read as follows:
Subpart UUUUa--Emission Guidelines for Greenhouse Gas Emissions
From Existing Electric Utility Generating Units
Introduction
Sec.
60.5700a What is the purpose of this subpart?
60.5705a Which pollutants are regulated by this subpart?
60.5710a Am I affected by this subpart?
60.5715a What is the review and approval process for my plan?
60.5720a What if I do not submit a plan or my plan is not
approvable?
60.5725a In lieu of a State plan submittal, are there other
acceptable option(s) for a State to meet its CAA section 111(d)
obligations?
60.5730a Is there an approval process for a negative declaration
letter?
State Plan Requirements
60.5735a What must I include in my federally enforceable State plan?
60.5740a What must I include in my plan submittal?
60.5745a What are the timing requirements for submitting my plan?
60.5750a What schedules, performance periods, and compliance periods
must I include in my plan?
60.5755a What standards of performance must I include in my plan?
60.5760a What is the procedure for revising my plan?
60.5765a What must I do to meet my plan obligations?
Applicablity of Plans to Designated Facilities
60.5770a Does this subpart directly affect EGU owners or operators
in my State?
60.5775a What designated facilities must I address in my State plan?
60.5780a What EGUs are excluded from being designated facilities?
60.5785a What applicable monitoring, recordkeeping, and reporting
requirements do I need to include in my plan for designated
facilities?
Recordkeeping and Reporting Requirements
60.5790a What are my recordkeeping requirements?
60.5795a What are my reporting and notification requirements?
60.5800a How do I submit information required by these Emission
Guidelines to the EPA?
Definitions
60.5805a What definitions apply to this subpart?
Introduction
Sec. 60.5700a What is the purpose of this subpart?
This subpart establishes emission guidelines and approval criteria
for State plans that establish standards of performance limiting
greenhouse gas (GHG) emissions from an affected steam generating unit.
An affected steam generating unit for the purposes of this subpart, is
referred to as a designated facility. These emission guidelines are
developed in accordance with section 111(d) of the Clean Air Act and
subpart Ba of this part. To the extent any requirement of this subpart
is inconsistent with the requirements of subpart A or Ba of this part,
the requirements of this subpart will apply.
Sec. 60.5705a Which pollutants are regulated by this subpart?
(a) The pollutants regulated by this subpart are greenhouse gases.
The emission guidelines for greenhouse gases established in this
subpart are heat rate improvements which target achieving lower carbon
dioxide (CO2) emission rates at designated facilities.
(b) PSD and Title V Thresholds for Greenhouse Gases.
(1) For the purposes of Sec. 51.166(b)(49)(ii) of this chapter,
with respect to GHG emissions from facilities, the ``pollutant that is
subject to the standard promulgated under section 111 of the Act''
shall be considered to be the pollutant that otherwise is subject to
regulation under the Act as defined in Sec. 51.166(b)(48) of this
chapter and in any State Implementation Plan (SIP) approved by the EPA
that is interpreted to incorporate, or specifically incorporates, Sec.
51.166(b)(48) of this chapter.
(2) For the purposes of Sec. 52.21(b)(50)(ii) of this chapter,
with respect to GHG emissions from facilities regulated in the plan,
the ``pollutant that is subject to the standard promulgated under
section 111 of the Act'' shall be considered to be the pollutant that
otherwise is subject to regulation under the Act as defined in Sec.
52.21(b)(49) of this chapter.
(3) For the purposes of Sec. 70.2 of this chapter, with respect to
greenhouse gas emissions from facilities regulated in the plan, the
``pollutant that is subject to any standard promulgated under section
111 of the Act'' shall be considered to be the pollutant that otherwise
is ``subject to regulation'' as defined in Sec. 70.2 of this chapter.
(4) For the purposes of Sec. 71.2 of this chapter, with respect to
greenhouse gas emissions from facilities regulated in the plan, the
``pollutant that is subject to any standard promulgated under section
111 of the Act'' shall be considered to be the pollutant that otherwise
is ``subject to regulation'' as defined in Sec. 71.2 of this chapter.
Sec. 60.5710a Am I affected by this subpart?
If you are the Governor of a State in the contiguous United States
with one or more designated facilities that commenced construction on
or before January 8, 2014, you are subject to this action and you must
submit a State plan to the U.S. Environmental Protection Agency (EPA)
that implements the emission guidelines contained in this subpart. If
you are the Governor of a State in the contiguous United States with no
designated facilities for which construction commenced on or before
January 8, 2014, in your State, you must submit a negative declaration
letter in place of the State plan.
Sec. 60.5715a What is the review and approval process for my plan?
The EPA will review your plan according to Sec. 60.27a to approve
or disapprove such plan or revision or each portion thereof.
Sec. 60.5720a What if I do not submit a plan, my plan is incomplete,
or my plan is not approvable?
(a) If you do not submit a complete or an approvable plan the EPA
will
[[Page 32580]]
develop a Federal plan for your State according to Sec. 60.27a. The
Federal plan will implement the emission guidelines contained in this
subpart. Owners and operators of designated facilities not covered by
an approved plan must comply with a Federal plan implemented by the EPA
for the State.
(b) After a Federal plan has been implemented in your State, it
will be withdrawn when your State submits, and the EPA approves, a
plan.
Sec. 60.5725a In lieu of a State plan submittal, are there other
acceptable option(s) for a State to meet its CAA section 111(d)
obligations?
A State may meet its CAA section 111(d) obligations only by
submitting a State plan submittal or a negative declaration letter (if
applicable).
Sec. 60.5730a Is there an approval process for a negative declaration
letter?
The EPA has no formal review process for negative declaration
letters. Once your negative declaration letter has been received, the
EPA will place a copy in the public docket and publish a notice in the
Federal Register. If, at a later date, a designated facility for which
construction commenced on or before January 8, 2014 is found in your
State, you will be found to have failed to submit a plan as required,
and a Federal plan implementing the emission guidelines contained in
this subpart, when promulgated by the EPA, will apply to that
designated facility until you submit, and the EPA approves, a State
plan.
State Plan Requirements
Sec. 60.5735a What must I include in my federally enforceable State
plan?
(a) You must include the components described in paragraphs (a)(1)
through (4) of this section in your plan submittal. The final plan must
meet the requirements of, and include the information required under,
Sec. 60.5740a.
(1) Identification of designated facilities. Consistent with Sec.
60.25a(a), you must identify the designated facilities covered by your
plan and all designated facilities in your State that meet the
applicability criteria in Sec. 60.5775a. In addition, you must include
an inventory of CO2 emissions from the designated facilities
during the most recent calendar year for which data is available prior
to the submission of the plan.
(2) Standards of performance. You must provide a standard of
performance for each designated facility according to Sec. 60.5755a
and compliance periods for each standard of performance according to
Sec. 60.5750a. Each standard of performance must reflect the degree of
emission limitation achievable through application of the heat rate
improvements described in Sec. 60.5740a. In applying the heat rate
improvements described in Sec. 60.5740a, a state may consider
remaining useful life and other factors, as provided for in Sec.
60.24a(e).
(3) Identification of applicable monitoring, reporting, and
recordkeeping requirements for each designated facility. You must
include in your plan all applicable monitoring, reporting and
recordkeeping requirements for each designated facility and the
requirements must be consistent with or no less stringent than the
requirements specified in Sec. 60.5785a.
(4) State reporting. Your plan must include a description of the
process, contents, and schedule for State reporting to the EPA about
plan implementation and progress, including information required under
Sec. 60.5795a.
(b) You must follow the requirements of subpart Ba of this part and
demonstrate that they were met in your State plan.
Sec. 60.5740a What must I include in my plan submittal?
(a) In addition to the components of the plan listed in Sec.
60.5735a, a state plan submittal to the EPA must include the
information in paragraphs (a)(1) through (8) of this section. This
information must be submitted to the EPA as part of your plan submittal
but will not be codified as part of the federally enforceable plan upon
approval by EPA.
(1) You must include a summary of how you determined each standard
of performance for each designated facility according to Sec.
60.5755a(a). You must include in the summary an evaluation of the
applicability of each of the following heat rate improvements to each
designated facility:
(i) Neural network/intelligent sootblowers;
(ii) Boiler feed pumps;
(iii) Air heater and duct leakage control;
(iv) Variable frequency drives;
(v) Blade path upgrades for steam turbines;
(vi) Redesign or replacement of economizer; and
(vii) Improved operating and maintenance practices.
(2)(i) As part of the summary under paragraph (a)(1) of this
section regarding the applicability of each heat rate improvement to
each designated facility, you must include an evaluation of the
following degree of emission limitation achievable through application
of the heat rate improvements:
Table 1 to Paragraph (a)(2)(i)--Most Impactful HRI Measures and Range of Their HRI Potential (%) by EGU Size
--------------------------------------------------------------------------------------------------------------------------------------------------------
< 200 MW 200-500 MW >500 MW
HRI Measure -----------------------------------------------------------------------------------------------
Min Max Min Max Min Max
--------------------------------------------------------------------------------------------------------------------------------------------------------
Neural Network/Intelligent Sootblowers.................. 0.5 1.4 0.3 1.0 0.3 0.9
Boiler Feed Pumps....................................... 0.2 0.5 0.2 0.5 0.2 0.5
Air Heater & Duct Leakage Control....................... 0.1 0.4 0.1 0.4 0.1 0.4
Variable Frequency Drives............................... 0.2 0.9 0.2 1.0 0.2 1.0
Blade Path Upgrade (Steam Turbine)...................... 0.9 2.7 1.0 2.9 1.0 2.9
Redesign/Replace Economizer............................. 0.5 0.9 0.5 1.0 0.5 1.0
rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr
Improved Operating and Maintenance (O&M) Practices...... Can range from 0 to > 2.0% depending on the unit's historical O&M practices.
--------------------------------------------------------------------------------------------------------------------------------------------------------
(ii) In applying a standard of performance, if you consider
remaining useful life and other factors for a designated facility as
provided in Sec. 60.24a(e), you must include a summary of the
application of the relevant factors in deriving a standard of
performance.
(3) You must include a demonstration that each designated
facility's standard of performance is quantifiable,
[[Page 32581]]
permanent, verifiable, and enforceable according to Sec. 60.5755a.
(4) Your plan demonstration must include the information listed in
paragraphs (a)(4)(i) through (v) of this section as applicable.
(i) A summary of each designated facility's anticipated future
operation characteristics, including:
(A) Annual generation;
(B) CO2 emissions;
(C) Fuel use, fuel prices, fuel carbon content;
(D) Fixed and variable operations and maintenance costs;
(E) Heat rates; and
(F) Electric generation capacity and capacity factors.
(ii) A timeline for implementation.
(iii) All wholesale electricity prices.
(iv) A time period of analysis, which must extend through at least
2035.
(v) A demonstration that each standard of performance included in
your plan meets the requirements of Sec. 60.5755a.
(5) Your plan submittal must include certification that a hearing
required under Sec. 60.23a(c)on the State plan was held, a list of
witnesses and their organizational affiliations, if any, appearing at
the hearing, and a brief written summary of each presentation or
written submission, pursuant to the requirements of Sec. 60.23a(g).
(6) Your plan submittal must include supporting material for your
plan including:
(i) Materials demonstrating the State's legal authority to
implement and enforce each component of its plan, including standards
of performance, pursuant to the requirements of Sec. Sec. 60.26a and
60.5740a(a)(6);
(ii) Materials supporting calculations for designated facility's
standards of performance according to Sec. 60.5755a; and
(iii) Any other materials necessary to support evaluation of the
plan by the EPA.
(b) You must submit your final plan to the EPA according to Sec.
60.5800a.
Sec. 60.5745a What are the timing requirements for submitting my
plan?
You must submit a plan with the information required under Sec.
60.5740a by July 8, 2022.
Sec. 60.5750a What schedules and compliance periods must I include in
my plan?
The EPA is superseding the requirement at Sec. 60.22a(b)(5) for
EPA to provide compliance timelines in the emission guidelines. Each
standard of performance for designated facilities regulated under the
plan must include a compliance period that ensures the standard of
performance reflects the degree of emission limitation achievable
though application of the heat rate improvements used to calculate the
standard. The schedules and compliance periods included in a plan must
follow the requirements of Sec. 60.24a.
Sec. 60.5755a What standards of performance must I include in my
plan?
(a) You must set a standard of performance for each designated
facility within the state.
(1) The standard of performance must be an emission performance
rate relating mass of CO2 emitted per unit of energy (e.g.
pounds of CO2 emitted per MWh).
(2) In establishing any standard of performance, you must consider
the applicability of each of the heat rate improvements and associated
degree of emission limitation achievable included in Sec.
60.5740a(a)(1) and (2) to the designated facility. You must include a
demonstration in your plan submission for how you considered each heat
rate improvement and associated degree of emission limitation
achievable in calculating each standard of performance.
(i) In applying a standard of performance to any designated
facility, you may consider the source-specific factors included in
Sec. 60.24a(e).
(ii) If you consider source-specific factors to apply a standard of
performance, you must include a demonstration in your plan submission
for how you considered such factors.
(b) Standards of performance for designated facilities included
under your plan must be demonstrated to be quantifiable, verifiable,
permanent, and enforceable with respect to each designated facility.
The plan submittal must include the methods by which each standard of
performance meets each of the requirements in paragraphs (c) through
(f) of this section.
(c) A designated facility's standard of performance is quantifiable
if it can be reliably measured in a manner that can be replicated.
(d) A designated facility's standard of performance is verifiable
if adequate monitoring, recordkeeping and reporting requirements are in
place to enable the State and the Administrator to independently
evaluate, measure, and verify compliance with the standard of
performance.
(e) A designated facility's standard of performance is permanent if
the standard of performance must be met for each compliance period,
unless it is replaced by another standard of performance in an approved
plan revision.
(f) A designated facility's standard of performance is enforceable
if:
(1) A technically accurate limitation or requirement and the time
period for the limitation or requirement are specified;
(2) Compliance requirements are clearly defined;
(3) The designated facility responsible for compliance and liable
for violations can be identified;
(4) Each compliance activity or measure is enforceable as a
practical matter; and
(5) The Administrator, the State, and third parties maintain the
ability to enforce against violations (including if a designated
facility does not meet its standard of performance based on its
emissions) and secure appropriate corrective actions, in the case of
the Administrator pursuant to CAA sections 113(a) through (h), in the
case of a State, pursuant to its plan, State law or CAA section 304, as
applicable, and in the case of third parties, pursuant to CAA section
304.
Sec. 60.5760a What is the procedure for revising my plan?
EPA-approved plans can be revised only with approval by the
Administrator. The Administrator will approve a plan revision if it is
satisfactory with respect to the applicable requirements of this
subpart and any applicable requirements of subpart Ba of this part,
including the requirements in Sec. 60.5740a. If one (or more) of the
elements of the plan set in Sec. 60.5735a require revision, a request
must be submitted to the Administrator indicating the proposed
revisions to the plan.
Sec. 60.5765a What must I do to meet my plan obligations?
To meet your plan obligations, you must demonstrate that your
designated facilities are complying with their standards of performance
as specified in Sec. 60.5755a.
Applicability of Plans to Designated Facilities
Sec. 60.5770a Does this subpart directly affect EGU owners or
operators in my State?
(a) This subpart does not directly affect EGU owners or operators
in your State. However, designated facility owners or operators must
comply with the plan that a State develops to implement the emission
guidelines contained in this subpart.
(b) If a State does not submit a plan to implement and enforce the
emission
[[Page 32582]]
guidelines contained in this subpart by July 8, 2022, or the date that
EPA disapproves a final plan, the EPA will implement and enforce a
Federal plan, as provided in Sec. 60.27a(c), applicable to each
designated facility within the State that commenced construction on or
before January 8, 2014.
Sec. 60.5775a What designated facilities must I address in my State
plan?
(a) The EGUs that must be addressed by your plan are any designated
facility that commenced construction on or before January 8, 2014.
(b) A designated facility is a steam generating unit that meets the
relevant applicability conditions specified in paragraphs (b)(1)
through (3) of this section, as applicable, of this section except as
provided in Sec. 60.5780a.
(1) Serves a generator connected to a utility power distribution
system with a nameplate capacity greater than 25 MW-net (i.e., capable
of selling greater than 25 MW of electricity).
(2) Has a base load rating (i.e., design heat input capacity)
greater than 260 GJ/hr (250 MMBtu/hr) heat input of fossil fuel (either
alone or in combination with any other fuel).
(3) Is an electric utility steam generating unit that burns coal
for more than 10.0 percent of the average annual heat input during the
3 previous calendar years.
Sec. 60.5780a What EGUs are excluded from being designated
facilities?
(a) An EGU that is excluded from being a designated facility is:
(1) An EGU that is subject to subpart TTTT of this part as a result
of commencing construction, reconstruction or modification after the
subpart TTTT applicability date;
(2) A steam generating unit that is subject to a federally
enforceable permit limiting annual net-electric sales to one-third or
less of its potential electric output, or 219,000 MWh or less;
(3) A stationary combustion turbine that meets the definition of a
simple cycle stationary combustion turbine, a combined cycle stationary
combustion turbine, or a combined heat and power combustion turbine;
(4) An IGCC unit;
(5) A non-fossil unit (i.e., a unit that is capable of combusting
50 percent or more non-fossil fuel) that has always limited the use of
fossil fuels to 10 percent or less of the annual capacity factor or is
subject to a federally enforceable permit limiting fossil fuel use to
10 percent or less of the annual capacity factor;
(6) An EGU that serves a generator along with other steam
generating unit(s), IGCC(s), or stationary combustion turbine(s) where
the effective generation capacity (determined based on a prorated
output of the base load rating of each steam generating unit, IGCC, or
stationary combustion turbine) is 25 MW or less;
(7) An EGU that is a municipal waste combustor unit that is subject
to subpart Eb of this part;
(8) An EGU that is a commercial or industrial solid waste
incineration unit that is subject to subpart CCCC of this part; or
(9) A steam generating unit that fires more than 50 percent non-
fossil fuels.
(b) [Reserved]
Sec. 60.5785a What applicable monitoring, recordkeeping, and
reporting requirements do I need to include in my plan for designated
facilities?
(a) Your plan must include monitoring, recordkeeping, and reporting
requirements for designated facilities. To satisfy this requirement,
you have the option of either:
(1) Specifying that sources must report emission and electricity
generation data according to part 75 of this chapter; or
(2) Including an alternative monitoring, recordkeeping, and
reporting program that includes specifications for the following
program elements:
(i) Monitoring plans that specify the monitoring methods, systems,
and formulas that will be used to measure CO2 emissions;
(ii) Monitoring methods to continuously and accurately measure all
CO2 emissions, CO2 emission rates, and other data
necessary to determine compliance or assure data quality;
(iii) Quality assurance test requirements to ensure monitoring
systems provide reliable and accurate data for assessing and verifying
compliance;
(iv) Recordkeeping requirements;
(v) Electronic reporting procedures and systems; and
(vi) Data validation procedures for ensuring data are complete and
calculated consistent with program rules, including procedures for
determining substitute data in instances where required data would
otherwise be incomplete.
(b) [Reserved]
Recordkeeping and Reporting Requirements
Sec. 60.5790a What are my recordkeeping requirements?
(a) You must keep records of all information relied upon in support
of any demonstration of plan components, plan requirements, supporting
documentation, and the status of meeting the plan requirements defined
in the plan. After the effective date of the plan, States must keep
records of all information relied upon in support of any continued
demonstration that the final standards of performance are being
achieved.
(b) You must keep records of all data submitted by the owner or
operator of each designated facility that is used to determine
compliance with each designated facility emissions standard or
requirements in an approved State plan, consistent with the designated
facility requirements listed in Sec. 60.5785a.
(c) If your State has a requirement for all hourly CO2
emissions and generation information to be used to calculate compliance
with an annual emissions standard for designated facilities, any
information that is submitted by the owners or operators of designated
facilities to the EPA electronically pursuant to requirements in part
75 of this chapter meets the recordkeeping requirement of this section
and you are not required to keep records of information that would be
in duplicate of paragraph (b) of this section.
(d) You must keep records at a minimum for 5 years from the date
the record is used to determine compliance with a standard of
performance or plan requirement. Each record must be in a form suitable
and readily available for expeditious review.
Sec. 60.5795a What are my reporting and notification requirements?
You must submit an annual report as required under Sec. 60.25a(e)
and (f).
Sec. 60.5800a How do I submit information required by these Emission
Guidelines to the EPA?
(a) You must submit to the EPA the information required by these
emission guidelines following the procedures in paragraphs (b) through
(e) of this section unless you submit through the procedure described
in paragraph (f) of this section.
(b) All negative declarations, State plan submittals, supporting
materials that are part of a State plan submittal, any plan revisions,
and all State reports required to be submitted to the EPA by the State
plan may be reported through EPA's electronic reporting system to be
named and made available at a later date.
(c) Only a submittal by the Governor or the Governor's designee by
an electronic submission through SPeCS shall be considered an official
submittal to the EPA under this subpart. If the
[[Page 32583]]
Governor wishes to designate another responsible official the authority
to submit a State plan, the EPA must be notified via letter from the
Governor prior to the July 8, 2022, deadline for plan submittal so that
the official will have the ability to submit a plan in the SPeCS. If
the Governor has previously delegated authority to make CAA submittals
on the Governor's behalf, a State may submit documentation of the
delegation in lieu of a letter from the Governor. The letter or
documentation must identify the designee to whom authority is being
designated and must include the name and contact information for the
designee and also identify the State plan preparers who will need
access to the EPA electronic reporting system. A State may also submit
the names of the State plan preparers via a separate letter prior to
the designation letter from the Governor in order to expedite the State
plan administrative process. Required contact information for the
designee and preparers includes the person's title, organization, and
email address.
(d) The submission of the information by the authorized official
must be in a non-editable format. In addition to the non-editable
version all plan components designated as federally enforceable must
also be submitted in an editable version.
(e) You must provide the EPA with non-editable and editable copies
of any submitted revision to existing approved federally enforceable
plan components. The editable copy of any such submitted plan revision
must indicate the changes made at the State level, if any, to the
existing approved federally enforceable plan components, using a
mechanism such as redline/strikethrough. These changes are not part of
the State plan until formal approval by EPA.
(f) If, in lieu of the requirements described in paragraphs (b)
through (e) of this section, you choose to submit a paper copy or an
electronic version by other means you must confer with your EPA
Regional Office regarding the additional guidelines for submitting your
plan.
Definitions
Sec. 60.5805a What definitions apply to this subpart?
As used in this subpart, all terms not defined herein will have the
meaning given them in the Clean Air Act and in subparts TTTT, A, and Ba
of this part.
Air Heater means a device that recovers heat from the flue gas for
use in pre-heating the incoming combustion air and potentially for
other uses such as coal drying.
Annual capacity factor means the ratio between the actual heat
input to an EGU during a calendar year and the potential heat input to
the EGU had it been operated for 8,760 hours during a calendar year at
the base load rating.
Base load rating means the maximum amount of heat input (fuel) that
an EGU can combust on a steady-state basis, as determined by the
physical design and characteristics of the EGU at ISO conditions.
Boiler feed pump (or boiler feedwater pump) means a device used to
pump feedwater into a steam boiler at an EGU. The water may be either
freshly supplied or returning condensate produced from condensing steam
produced by the boiler.
CO2 emission rate means for a designated facility, the
reported CO2 emission rate of a designated facility used by
a designated facility to demonstrate compliance with its CO2
standard of performance.
Combined cycle unit means an electric generating unit that uses a
stationary combustion turbine from which the heat from the turbine
exhaust gases is recovered by a heat recovery steam generating unit to
generate additional electricity.
Combined heat and power unit or CHP unit (also known as
``cogeneration'') means an electric generating unit that uses a steam-
generating unit or stationary combustion turbine to simultaneously
produce both electric (or mechanical) and useful thermal output from
the same primary energy source.
Compliance period means a discrete time period for a designated
facility to comply with a standard of performance.
Designated facility means a steam generating unit that meets the
relevant applicability conditions in section Sec. 60.5775a, except as
provided in Sec. 60.5780a.
Economizer means a heat exchange device used to capture waste heat
from boiler flue gas which is then used to heat the boiler feedwater.
Fossil fuel means natural gas, petroleum, coal, and any form of
solid fuel, liquid fuel, or gaseous fuel derived from such material to
create useful heat.
Integrated gasification combined cycle facility or IGCC means a
combined cycle facility that is designed to burn fuels containing 50
percent (by heat input) or more solid-derived fuel not meeting the
definition of natural gas plus any integrated equipment that provides
electricity or useful thermal output to either the affected facility or
auxiliary equipment. The Administrator may waive the 50 percent solid-
derived fuel requirement during periods of the gasification system
construction, startup and commissioning, shutdown, or repair. No solid
fuel is directly burned in the unit during operation.
Intelligent sootblower means an automated system that use process
measurements to monitor the heat transfer performance and strategically
allocate steam to specific areas to remove ash buildup at a steam
generating unit.
ISO conditions means 288 Kelvin (15 [deg]C), 60 percent relative
humidity and 101.3 kilopascals pressure.
Nameplate capacity means, starting from the initial installation,
the maximum electrical generating output that a generator, prime mover,
or other electric power production equipment under specific conditions
designated by the manufacturer is capable of producing (in MWe, rounded
to the nearest tenth) on a steady-state basis and during continuous
operation (when not restricted by seasonal or other deratings) as of
such installation as specified by the manufacturer of the equipment, or
starting from the completion of any subsequent physical change
resulting in an increase in the maximum electrical generating output
that the equipment is capable of producing on a steady-state basis and
during continuous operation (when not restricted by seasonal or other
deratings), such increased maximum amount (in MWe, rounded to the
nearest tenth) as of such completion as specified by the person
conducting the physical change.
Natural gas means a fluid mixture of hydrocarbons (e.g., methane,
ethane, or propane), composed of at least 70 percent methane by volume
or that has a gross calorific value between 35 and 41 megajoules (MJ)
per dry standard cubic meter (950 and 1,100 Btu per dry standard cubic
foot), that maintains a gaseous State under ISO conditions. In
addition, natural gas contains 20.0 grains or less of total sulfur per
100 standard cubic feet. Finally, natural gas does not include the
following gaseous fuels: Landfill gas, digester gas, refinery gas, sour
gas, blast furnace gas, coal-derived gas, producer gas, coke oven gas,
or any gaseous fuel produced in a process which might result in highly
variable sulfur content or heating value.
Net electric output means the amount of gross generation the
generator(s) produce (including, but not limited to, output from steam
turbine(s), combustion turbine(s), and gas expander(s)), as measured at
the generator terminals, less the electricity used to operate the plant
(i.e., auxiliary loads); such uses include fuel handling equipment,
pumps, fans, pollution
[[Page 32584]]
control equipment, other electricity needs, and transformer losses as
measured at the transmission side of the step up transformer (e.g., the
point of sale).
Net energy output means:
(1) The net electric or mechanical output from the affected
facility, plus 100 percent of the useful thermal output measured
relative to SATP conditions that is not used to generate additional
electric or mechanical output or to enhance the performance of the unit
(e.g., steam delivered to an industrial process for a heating
application).
(2) For combined heat and power facilities where at least 20.0
percent of the total gross or net energy output consists of electric or
direct mechanical output and at least 20.0 percent of the total gross
or net energy output consists of useful thermal output on a 12-
operating month rolling average basis, the net electric or mechanical
output from the designated facility divided by 0.95, plus 100 percent
of the useful thermal output; (e.g., steam delivered to an industrial
process for a heating application).
Neural network means a computer model that can be used to optimize
combustion conditions, steam temperatures, and air pollution at steam
generating unit.
Simple cycle combustion turbine means any stationary combustion
turbine which does not recover heat from the combustion turbine engine
exhaust gases for purposes other than enhancing the performance of the
stationary combustion turbine itself.
Standard ambient temperature and pressure (SATP) conditions means
298.15 Kelvin (25 [deg]C, 77 [deg]F) and 100.0 kilopascals (14.504 psi,
0.987 atm) pressure. The enthalpy of water at SATP conditions is 50
Btu/lb.
State agent means an entity acting on behalf of the State, with the
legal authority of the State.
Stationary combustion turbine means all equipment, including but
not limited to the turbine engine, the fuel, air, lubrication and
exhaust gas systems, control systems (except emissions control
equipment), heat recovery system, fuel compressor, heater, and/or pump,
post-combustion emissions control technology, and any ancillary
components and sub-components comprising any simple cycle stationary
combustion turbine, any combined cycle combustion turbine, and any
combined heat and power combustion turbine based system plus any
integrated equipment that provides electricity or useful thermal output
to the combustion turbine engine, heat recovery system or auxiliary
equipment. Stationary means that the combustion turbine is not self-
propelled or intended to be propelled while performing its function. It
may, however, be mounted on a vehicle for portability. If a stationary
combustion turbine burns any solid fuel directly it is considered a
steam generating unit.
Steam generating unit means any furnace, boiler, or other device
used for combusting fuel and producing steam (nuclear steam generators
are not included) plus any integrated equipment that provides
electricity or useful thermal output to the affected facility or
auxiliary equipment.
Useful thermal output means the thermal energy made available for
use in any heating application (e.g., steam delivered to an industrial
process for a heating application, including thermal cooling
applications) that is not used for electric generation, mechanical
output at the designated facility, to directly enhance the performance
of the designated facility (e.g., economizer output is not useful
thermal output, but thermal energy used to reduce fuel moisture is
considered useful thermal output), or to supply energy to a pollution
control device at the designated facility. Useful thermal output for
designated facility(s) with no condensate return (or other thermal
energy input to the designated facility(s)) or where measuring the
energy in the condensate (or other thermal energy input to the
designated facility(s)) would not meaningfully impact the emission rate
calculation is measured against the energy in the thermal output at
SATP conditions. Designated facility(s) with meaningful energy in the
condensate return (or other thermal energy input to the designated
facility) must measure the energy in the condensate and subtract that
energy relative to SATP conditions from the measured thermal output.
Variable frequency drive means an adjustable-speed drive used on
induced draft fans and boiler feed pumps to control motor speed and
torque by varying motor input frequency and voltage.
[FR Doc. 2019-13507 Filed 7-5-19; 8:45 am]
BILLING CODE 6560-50-P
