Energy Conservation Program: Energy Conservation Standards for Residential Furnaces and Residential Central Air Conditioners and Heat Pumps, 67037-67051 [2011-28146]
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67037
Rules and Regulations
Federal Register
Vol. 76, No. 210
Monday, October 31, 2011
This section of the FEDERAL REGISTER
contains regulatory documents having general
applicability and legal effect, most of which
are keyed to and codified in the Code of
Federal Regulations, which is published under
50 titles pursuant to 44 U.S.C. 1510.
The Code of Federal Regulations is sold by
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REGISTER issue of each week.
DEPARTMENT OF ENERGY
10 CFR Part 430
[Docket Number EERE–2011–BT–STD–
0011]
RIN 1904–AC06
Energy Conservation Program: Energy
Conservation Standards for
Residential Furnaces and Residential
Central Air Conditioners and Heat
Pumps
Office of Energy Efficiency and
Renewable Energy, Department of
Energy.
ACTION: Notice of effective date and
compliance dates for direct final rule.
AGENCY:
The U.S. Department of
Energy (DOE) published a direct final
rule to establish amended energy
conservation standards for residential
furnaces and residential central air
conditioners and heat pumps in the
Federal Register on June 27, 2011. DOE
has determined that the adverse
comments received in response to the
direct final rule do not provide a
reasonable basis for withdrawing the
direct final rule. Therefore, DOE
provides this notice confirming
adoption of the energy conservation
standards for residential furnaces and
residential central air conditioners and
heat pumps established in the direct
final rule and announcing the effective
date of those standards.
DATES: The direct final rule published
on June 27, 2011 (76 FR 37408) became
effective on October 25, 2011.
Compliance with the standards in the
direct final rule will be required on May
1, 2013 for non-weatherized furnaces
and on January 1, 2015 for weatherized
furnaces and central air conditioners
and heat pumps.
ADDRESSES: The docket is available for
review at https://www.regulations.gov,
including Federal Register notices,
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SUMMARY:
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framework documents, public meeting
attendee lists and transcripts,
comments, and other supporting
documents/materials. All documents in
the docket are listed in the https://
www.regulations.gov index. Not all
documents listed in the index may be
publicly available, such as information
that is exempt from public disclosure. A
link to the docket Web page can be
found at https://www.regulations.gov.
FOR FURTHER INFORMATION CONTACT:
Mr. Mohammed Khan (furnaces) or
Mr. Wesley Anderson (central air
conditioners and heat pumps), U.S.
Department of Energy, Office of
Energy Efficiency and Renewable
Energy, Building Technologies
Program, EE–2J, 1000 Independence
Avenue SW., Washington, DC 20585–
0121. Telephone: (202) 586–7892 or
(202) 586–7335. E-mail:
Mohammed.Khan@ee.doe.gov or
Wes.Anderson@ee.doe.gov.
Mr. Eric Stas or Ms. Jennifer Tiedeman,
U.S. Department of Energy, Office of
the General Counsel, GC–71, 1000
Independence Avenue SW.,
Washington, DC 20585–0121.
Telephone: (202) 586–9507 or (202)
287–6111. Email:
Eric.Stas@hq.doe.gov or
Jennifer.Tiedeman@hq.doe.gov.
For further information on how to
submit or review public comments or
view hard copies of the docket, contact
Ms. Brenda Edwards at (202) 586–2945
or email: Brenda.Edwards@ee.doe.gov.
SUPPLEMENTARY INFORMATION:
I. Authority and Rulemaking
Background
The Energy Policy and Conservation
Act of 1975 (EPCA; 42 U.S.C. 6291–
6309, as codified), as amended,
authorizes DOE to issue a direct final
rule (DFR) establishing an energy
conservation standard on receipt of a
statement submitted jointly by
interested persons that are fairly
representative of relevant points of view
(including representatives of
manufacturers of covered products,
States, and efficiency advocates) as
determined by the Secretary of Energy
(Secretary). EPCA further requires that a
statement contain recommendations
with respect to an energy conservation
standard that are in accordance with the
provisions of 42 U.S.C. 6295(o). A
notice of proposed rulemaking (NOPR)
that proposes an identical energy
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conservation standard must be
published simultaneously with the final
rule, and DOE must provide a public
comment period of at least 110 days on
the direct final rule. 42 U.S.C.
6295(p)(4). Not later than 120 days after
issuance of the direct final rule, if one
or more adverse comments or an
alternative joint recommendation are
received relating to the direct final rule,
the Secretary must determine whether
the comments or alternative
recommendation may provide a
reasonable basis for withdrawal under
42 U.S.C. 6295(o) or other applicable
law. If the Secretary makes such a
determination, DOE must withdraw the
direct final rule and proceed with the
simultaneously published NOPR. DOE
must publish in the Federal Register the
reasons why the direct final rule was
withdrawn. Id.
During the rulemaking proceeding to
consider amending energy conservation
standards for residential furnaces and
residential central air conditioners and
heat pumps, DOE received the
‘‘Agreement on Legislative and
Regulatory Strategy for Amending
Federal Energy Efficiency Standards,
Test Procedures, Metrics and Building
Code Provisions for Residential Central
Air Conditioners, Heat Pumps,
Weatherized and Non-Weatherized
Furnaces and Related Matters’’ (the
‘‘Joint Petition’’ or ‘‘Consensus
Agreement’’), a comment submitted by
representatives of the American Heating
and Refrigeration Institute (AHRI),
American Council for an EnergyEfficient Economy (ACEEE), Alliance to
Save Energy (ASE), Natural Resources
Defense Council (NRDC), Appliance
Standard Awareness Project (ASAP),
Northeast Energy Efficiency
Partnerships (NEEP), Northwest Power
and Conservation Council (NPCC),
California Energy Commission (CEC),
Bard Manufacturing Company Inc.,
Carrier Residential and Light
Commercial Systems, Goodman Global
Inc., Lennox Residential, Mitsubishi
Electric & Electronics USA, National
Comfort Products, Rheem
Manufacturing Company, and Trane
Residential (collectively, the ‘‘Joint
Petitioners’’). This collective set of
comments 1 recommends specific energy
conservation standards for residential
furnaces, central air conditioners, and
1 DOE Docket No. EERE–2011–BT–STD–0011,
Comment 16.
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heat pumps that, in the commenters’
view, would satisfy the EPCA
requirements at 42 U.S.C. 6295(o).
Numerous interested parties, including
signatories of the Consensus Agreement,
as well as other parties, expressed
support for DOE adoption of the
Consensus Agreement both at a public
hearing and in written comments on the
furnaces and central air conditioners
rulemakings.
After careful consideration of the
Consensus Agreement, the Secretary
determined that it was submitted by
interested persons who are fairly
representative of relevant points of view
on this matter. DOE noted in the direct
final rule that Congress provided some
guidance within the statute itself by
specifying that representatives of
manufacturers of covered products,
States, and efficiency advocates are
relevant parties to any consensus
recommendation. (42 U.S.C.
6295(p)(4)(A)) As delineated above, the
consensus agreement was signed and
submitted by a broad cross-section of
the manufacturers who produce the
subject products, their trade
associations, and environmental, energy
efficiency, and consumer advocacy
organizations. One State entity was a
party to the Consensus Agreement, and
no State expressed any opposition to the
Consensus Agreement from the time of
its submission to DOE through the close
of the comment period on the direct
final rule. Moreover, DOE stated in the
direct final rule that it does not interpret
the statute as requiring absolute
agreement among all interested parties
before DOE may proceed with issuance
of a direct final rule. By explicit
language of the statute, the Secretary has
discretion to determine when a joint
recommendation for an energy or water
conservation standard has met the
requirement for representativeness (i.e.,
‘‘as determined by the Secretary’’).
Accordingly, DOE determined that the
consensus agreement was made and
submitted by interested persons fairly
representative of relevant points of
view.
Pursuant to 42 U.S.C. 6295(p)(4), the
Secretary must also determine whether
a jointly submitted recommendation for
an energy or water conservation
standard is in accordance with 42 U.S.C.
6295(o) or 42 U.S.C. 6313(a)(6)(B), as
applicable. As stated in the direct final
rule, this determination is exactly the
type of analysis DOE conducts
whenever it considers potential energy
conservation standards pursuant to
EPCA. DOE applies the same principles
to any consensus recommendations it
may receive to satisfy its statutory
obligation to ensure that any energy
conservation standard that it adopts
achieves the maximum improvement in
energy efficiency that is technologically
feasible and economically justified and
will result in significant conservation of
energy. Upon review, the Secretary
determined that the Consensus
Agreement submitted in the instant
rulemaking comports with the standardsetting criteria set forth under 42 U.S.C.
6295(o). Accordingly, the Consensus
Agreement levels, included as trial
standard level (TSL) 4 for both
residential furnaces and residential
central air conditioners and heat pumps,
were adopted as the amended standard
levels in the direct final rule.
In sum, as the relevant statutory
criteria were satisfied, the Secretary
adopted the amended energy
conservation standards for residential
furnaces and residential central air
conditioners and heat pumps set forth
in the direct final rule. These standards
are set forth in Table I.1 and Table I.2.
The standards apply to all products
listed in Table I.1 and Table I.2 that are
manufactured in, or imported into, the
United States on or after May 1, 2013 for
non-weatherized gas and oil-fired
furnaces and mobile home furnaces and
on or after January 1, 2015 for
weatherized gas furnaces and central air
conditioners and heat pumps. These
compliance dates were set forth in the
direct final rule published in the
Federal Register on June 27, 2011. 76
FR 37408. For a detailed discussion of
DOE’s analysis of the benefits and
burdens of the amended standards
pursuant to the criteria set forth in
EPCA, please see the direct final rule. 76
FR 37408 (June 27, 2011).
As required by EPCA, DOE also
simultaneously published a NOPR
proposing the identical standard levels
contained in the direct final rule. As
discussed in this section, DOE
considered whether any adverse
comment received during the 110-day
comment period following the direct
final rule provided a reasonable basis
for withdrawal of the direct final rule
and continuation of this rulemaking
under the NOPR. As noted in the direct
final rule, it is the substance, rather than
the quantity, of comments that will
ultimately determine whether a direct
final rule will be withdrawn. To this
end, DOE weighs the substance of any
adverse comment(s) received against the
anticipated benefits of the Consensus
Agreement and the likelihood that
further consideration of the comment(s)
would change the results of the
rulemaking. DOE notes that to the extent
an adverse comment had been
previously raised and addressed in the
rulemaking proceeding, such a
submission will not typically provide a
basis for withdrawal of a direct final
rule.
TABLE I.1—AMENDED ENERGY CONSERVATION STANDARDS FOR FURNACE, CENTRAL AIR CONDITIONER, AND HEAT PUMP
ENERGY EFFICIENCY
National standards
(percent)
Product class
Northern region **
standards
(percent)
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Residential Furnaces *
Non-weatherized gas ..............................................................................................................................
Mobile home gas ....................................................................................................................................
Non-weatherized oil-fired ........................................................................................................................
Weatherized gas .....................................................................................................................................
Mobile home oil-fired ‡‡ ..........................................................................................................................
Weatherized oil-fired ‡‡ ...........................................................................................................................
Electric‡‡ .................................................................................................................................................
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AFUE
AFUE
AFUE
AFUE
AFUE
AFUE
AFUE
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=
=
=
=
=
=
=
80
80
83
81
75
78
78
31OCR1
.............
.............
.............
.............
.............
.............
.............
AFUE
AFUE
AFUE
AFUE
AFUE
AFUE
AFUE
=
=
=
=
=
=
=
90.
90.
83.
81.
75.
78.
78.
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Federal Register / Vol. 76, No. 210 / Monday, October 31, 2011 / Rules and Regulations
Product class
National standards
Southeastern
region ††
Southwestern region ‡ standards
Central Air Conditioners and Heat Pumps †
Split-system air conditioners .................................
SEER = 13 ............
SEER = 14 ............
Split-system heat pumps .......................................
SEER = 14 ............
HSPF = 8.2 ...........
SEER = 14 ............
SEER = 14 ............
HSPF = 8.2 ...........
SEER = 14 ............
SEER = 14 ............
HSPF = 8.0 ...........
SEER = 13 ............
HSPF = 7.7 ...........
SEER = 12 ............
SEER = 12 ............
HSPF = 7.4 ...........
SEER = 14 ............
HSPF = 8.0 ...........
SEER = 13 ............
HSPF = 7.7 ...........
SEER = 12 ............
SEER = 12 ............
HSPF = 7.4 ...........
Single-package air conditioners ‡‡ ........................
Single-package heat pumps ..................................
Small-duct, high-velocity systems .........................
Space-constrained products—air conditioners ‡‡
Space-constrained products—heat pumps ‡‡ .......
SEER = 14.
EER = 12.2 (for units with a rated cooling capacity less than 45,000 Btu/h).
EER = 11.7 (for units with a rated cooling capacity equal to or greater than 45,000 Btu/h).
SEER = 14.
HSPF = 8.2.
SEER = 14.
EER = 11.0.
SEER = 14.
HSPF = 8.0.
SEER = 13.
HSPF = 7.7.
SEER = 12.
SEER = 12.
HSPF = 7.4.
* AFUE is annual fuel utilization efficiency.
** The Northern region for furnaces contains the following States: Alaska, Colorado, Connecticut, Idaho, Illinois, Indiana, Iowa, Kansas, Maine,
Massachusetts, Michigan, Minnesota, Missouri, Montana, Nebraska, New Hampshire, New Jersey, New York, North Dakota, Ohio, Oregon,
Pennsylvania, Rhode Island, South Dakota, Utah, Vermont, Washington, West Virginia, Wisconsin, and Wyoming.
† SEER is Seasonal Energy Efficiency Ratio; EER is Energy Efficiency Ratio; HSPF is Heating Seasonal Performance Factor; and Btu/h is British thermal units per hour.
†† The Southeastern region for central air conditioners and heat pumps contains the following States: Alabama, Arkansas, Delaware, Florida,
Georgia, Hawaii, Kentucky, Louisiana, Maryland, Mississippi, North Carolina, Oklahoma, South Carolina, Tennessee, Texas, and Virginia, and
the District of Columbia.
‡ The Southwestern region for central air conditioners and heat pumps contains the States of Arizona, California, Nevada, and New Mexico.
‡‡ DOE is not amending energy conservation standards for these product classes in this rule.
TABLE I.2—AMENDED ENERGY CONSERVATION STANDARDS FOR FURNACE, CENTRAL AIR CONDITIONER, AND HEAT PUMP
STANDBY MODE AND OFF MODE *
Standby mode and off
mode standard levels
Product class
Residential Furnaces **
Non-weatherized gas ...............................................................................................................................................................
Mobile home gas .....................................................................................................................................................................
Non-weatherized oil-fired .........................................................................................................................................................
Mobile home oil-fired ...............................................................................................................................................................
Electric .....................................................................................................................................................................................
PW,SB = 10 watts.
PW,OFF = 10 watts.
PW,SB = 10 watts.
PW,OFF = 10 watts.
PW,SB = 11 watts.
PW,OFF = 11 watts.
PW,SB = 11 watts.
PW,OFF = 11 watts.
PW,SB = 10 watts.
PW,OFF = 10 watts.
Off mode standard
levels ††
Product class
Central Air Conditioners and Heat Pumps ††
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Split-system air conditioners ....................................................................................................................................................
Split-system heat pumps .........................................................................................................................................................
Single-package air conditioners ..............................................................................................................................................
Single-package heat pumps ....................................................................................................................................................
Small-duct, high-velocity systems ...........................................................................................................................................
Space-constrained air conditioners .........................................................................................................................................
Space-constrained heat pumps ...............................................................................................................................................
PW,OFF
PW,OFF
PW,OFF
PW,OFF
PW,OFF
PW,OFF
PW,OFF
=
=
=
=
=
=
=
30
33
30
33
30
30
33
watts.
watts.
watts.
watts.
watts.
watts.
watts.
* PW,SB is standby mode electrical power consumption, and PW,OFF is off mode electrical power consumption. For furnaces, DOE is proposing
to change the nomenclature for the standby mode and off mode power consumption metrics for furnaces from those in the furnace and boiler
test procedure final rule published on October 20, 2010. 75 FR 64621. DOE is renaming the PSB and POFF metrics as PW,SB and PW,OFF, respectively. However, the substance of these metrics remains unchanged.
** Standby mode and off mode energy consumption for weatherized gas and oil-fired furnaces is regulated as a part of single-package air conditioners and heat pumps.
† PW,OFF is off mode electrical power consumption for central air conditioners and heat pumps.
†† DOE is not adopting a separate standby mode standard level for central air conditioners and heat pumps, because standby mode power
consumption for these products is already regulated by SEER and HSPF.
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Federal Register / Vol. 76, No. 210 / Monday, October 31, 2011 / Rules and Regulations
II. Comments Concerning Withdrawal
of the Direct Final Rule
A. General Comments
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1. Joint Petition
A number of commenters stated that
DOE did not consider the views of all
relevant parties, including appliance
installers and energy suppliers. Some
commenters also stated that DOE did
not explain its process for determining
whether the Joint Petition was
submitted by relevant parties, including
a determination of which parties are
‘‘not’’ relevant.
Specifically, UGI Distributors stated
that there was not sufficient
participation by interested persons.
(UGI, No. 22 at p. 10) The American
Public Gas Association (APGA)
contended that the Consensus
Agreement was not based on the most
relevant sectors of the industry. (APGA,
No. 24 at pp. 12–13) Metropolitan
Utilities District of Omaha Nebraska
(MUD) stated that the Consensus
Agreement failed to represent consumer
interests, because the Joint Petitioners
(who submitted the Consensus
Agreement) were comprised primarily
of appliance manufacturers and various
energy conservation groups, not
individuals who deal with installation
and inspection of these appliances on a
daily basis. (MUD, No. 29 at p. 1) AGL
Resources (AGL) commented that the
petition did not include all relevant
parties as required by the legislation
granting authority for DFRs, and it
recommended DOE should withdraw
the DFR in favor of the NOPR process.
Specifically, AGL cited appliance
installers and energy suppliers as not
being involved, noting that appliance
installers could have provided more
complete information regarding
installation costs and that energy
suppliers could have provided
important information on consumer
impacts. (AGL, No. 31 at p. 3) Heating,
Air-conditioning and Refrigeration
Distributors International (HARDI)
stated that the Consensus Agreement
excludes the input of U.S. small
business owners, who represent twothirds of the heating, ventilation, and
air-conditioning (HVAC) supply chain
and 32,264 HVAC contracting and
distribution companies and branches
nationwide. (HARDI, No. 39 at p. 1) The
Air Conditioning Contractors of
America (ACCA) stated that the
Consensus Agreement represents the
view of a minority of stakeholders, is an
unsuitable use of the direct final rule
process, and directly and adversely
impacts several stakeholders not
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included in the Consensus Agreement.
(ACCA, No. 50 at p. 2)
Conversely, the Joint Comment from
ASAP, NRDC, ACEEE, ASE, NPCC,
NEEP, the Consumer Federation of
America (CFA), and EarthJustice (Joint
Comment) supported DOE’s
determination of what constitutes an
agreement that is submitted jointly by
interested persons that are fairly
representative of relevant points of
view. (Joint Comment, No. 47 at p. 2)
These stakeholders contend that DOE
has properly exercised its authority to
issue a direct final rule under 42 U.S.C.
6295(p)(4)(A).
As explained above in section I, EPCA
authorizes DOE to issue a direct final
rule establishing an energy conservation
standard on receipt of a statement that,
in relevant part, is submitted jointly by
interested persons that are fairly
representative of relevant points of view
(including representatives of
manufacturers of covered products,
States, and efficiency advocates) as
determined by the Secretary. While
providing some guidance by specifying
that representatives of manufacturers of
covered products, States, and efficiency
advocates are relevant parties to any
consensus recommendation, EPCA
affords DOE significant discretion in
determining whether this requirement
has been met. (42 U.S.C. 6295(p)(4)(A))
DOE notes that EPCA does not require
that ‘‘all’’ relevant parties be parties to
any Consensus Agreement, nor does it
allow a small number of interested
parties to exercise a veto power over the
DFR process. EPCA also does not
require DOE to specify parties that it
determines are ‘‘not relevant’’ to any
Consensus Agreement.
In the direct final rule, DOE explained
how the Consensus Agreement met the
requirement that it be submitted jointly
by interested persons that are fairly
representative of relevant points of
view. DOE noted that the Consensus
Agreement was signed and submitted by
a broad cross-section of the
manufacturers who produce the subject
products, their trade associations, and
environmental and energy efficiency
organizations. DOE further noted that
one State entity was a party to the
Consensus Agreement, and no State
expressed any opposition to it. States
also did not file any adverse comments
during the comment period for the
direct final rule.
Moreover, DOE stated in the direct
final rule that it does not interpret the
statute as requiring absolute agreement
among all interested parties before DOE
may proceed with issuance of a direct
final rule. By explicit language of the
statute, the Secretary has considerable
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discretion to determine when a joint
recommendation for an energy or water
conservation standard has met the
requirement for representativeness (i.e.,
‘‘as determined by the Secretary’’). DOE
acknowledges that appliance installers
and energy suppliers may also be
relevant parties within the meaning of
42 U.S.C. 6295(p)(4), but does not
believe that the existence of other
potentially relevant parties indicates
that the Consensus Agreement was not
submitted jointly by interested persons
that are fairly representative of relevant
points of view (including
representatives of manufacturers of
covered products, States, and efficiency
advocates).
For the reasons stated above, DOE
affirms its conclusion in the direct final
rule that the Joint Petition satisfies the
requirement of 42 U.S.C. 6295(p)(4) that
it be a statement submitted jointly by
interested persons that are fairly
representative of relevant points of view
(including representatives of
manufacturers of covered products,
States, and efficiency advocates) as
determined by the Secretary.
2. Comments on Withdrawal of the
Direct Final Rule
As explained more fully below, DOE
has determined that none of the
comments requesting withdrawal, taken
as a whole or individually, may provide
a reasonable basis for the Secretary to
withdraw the direct final rule. In setting
efficiency standards such as those for
furnaces, DOE uses a publicly-available,
forward-looking model to evaluate the
economic impact of several technically
feasible energy efficiency levels
pursuant to the criteria specified in 42
U.S.C. 6295(o). DOE runs its analysis
starting at the most efficient
technologically feasible level through
progressively lower efficiency levels
until its finds the most efficient trial
standard level (TSL) that is
economically justified. DOE has made
its model and the data used in its model
public on its Web site.
The American Gas Association
(AGA) 2 and APGA submitted comments
arguing that DOE used inappropriate
data for several parameters in its lifecycle cost (LCC) model for furnaces,
including future natural gas prices, the
2 Philadelphia Gas Works, Nicor, Piedmont,
Consolidated Edison of New York, NW Natural Gas
Company, Atmos Energy and Alabama Gas
submitted comments expressing general support for
the comments by the American Gas Association
(AGA). (Philadelphia Gas Works, No. 23 at pp. 1–
2; Nicor, No. 32 at p. 1; Piedmont, No. 32 at p. 1;
Consolidated Edison of New York, No. 32 at p. 1;
NW Natural Gas Company, No. 32 at p. 1; Atmos
Energy, No. 32 at p. 1; Alabama Gas, No. 32 at p.
1)
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lifetime of non-weatherized gas
furnaces, installation costs, and future
consumer costs for furnaces. DOE
explains below why, contrary to these
comments, it used appropriate data for
each such parameter.
However, even if the commenters
were correct with respect to all the data
issues they raised, that would still not
result in an efficiency standard for
furnaces that is different than the one in
the DFR. In response to the comments
from AGA and APGA, DOE re-ran its
model using the data and assumptions
provided by those organizations in their
comments. DOE’s analytical results,
which it has made public on its Web
site, showed that the standard set for
furnaces in the DFR (TSL 4) still has a
positive average LCC savings, even
using all the commenters’ data and
assumptions. Because the commenters’
objections, even if they were all correct,
a scenario DOE does not believe likely,
would not have resulted in a change to
the efficiency standard for furnaces,
they could not possibly provide a
reasonable basis for withdrawing the
rule.
In their comments, AGA and APGA
assert that, taken together, their data
assumptions cause the standard for
furnaces in the DFR to have an average
LCC savings that is slightly negative in
the northern region of the United States.
However, they have not provided
sufficient information to allow DOE to
replicate their results. As indicated
above, DOE has made its spreadsheet
model publicly available on its Web site
and no commenter—including AGA and
APGA—has questioned the
methodology underlying the
spreadsheet model (as opposed to the
data used in the model). Therefore,
notwithstanding the results assertedly
reached by AGA and APGA using DOE’s
model, DOE has concluded that its
model (which remains unchallenged in
terms of its methodology) supports the
efficiency standard in the DFR, even
using the data and assumptions
provided by the adverse commenters.
Further, as explained in the DFR (76
FR 37524), the consensus agreement
represents the effort of diverse
stakeholders representing widely varied
interested parties to negotiate their
differences, reach common ground, and
expedite the rulemaking process. Those
efforts, and the benefits they entail,
were properly considered by the
Secretary under 42 U.S.C.
6295(o)(2)(B)(i)(VII). DOE has
encouraged stakeholders in all areas to
work together to propose consensus
agreements that can lead to DFRs where
appropriate. Here, the benefits of the
consensus agreement, reflected in the
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DFR, include additional energy savings
resulting from accelerated compliance
dates for covered products, as well as an
increased likelihood for regulatory
compliance and a decreased risk of
litigation. The Secretary is cognizant of
those benefits in analyzing the adverse
comments, and in determining whether
any of those comments may provide a
reasonable basis for withdrawal of the
DFR under 42 U.S.C. 6295(o).
B. Comments on Standards for
Residential Furnaces
1. The Direct Final Rule Would Cause
Certain Gas Furnaces in the Northern
Region to Become Unavailable in
Violation of the Act
The American Gas Association (AGA)
stated that: (1) Establishing a minimum
efficiency standard of 90-percent AFUE
for the northern region would prevent
the installation in that region of a
Category I 3 gas furnace; (2) the regional
standard, therefore, would necessarily
result in the unavailability in the
northern region of a covered product
type with the performance
characteristics of a non-positive vent
static pressure, non-condensing (i.e.,
Category I) gas furnace; (3) the Act
prohibits DOE from prescribing a
standard that is likely to result in the
unavailability in the U.S. in any covered
product type (or class) of performance
characteristics (including reliability),
features, sizes, capacities, and volumes
that are substantially the same as those
generally available in the United States.
(AGA, No. 27 at p. 5)
AGA further noted that: (1) In light of
the requirements of the gas codes, a
Category I non-positive vent, noncondensing gas furnace cannot be
replaced with a Category IV positive
vent, condensing gas furnace without
addressing the venting and condensate
disposal issues; (2) accordingly, the
performance features of a Category I gas
furnace (including its ability to be
vented through a chimney, common
vented with other gas appliances, and
common vented in multi-unit,
multistory housing, as well as its ability
to vent without having to address
disposal of flue gas condensate) provide
tangible and cost-saving benefits to
consumers justifying separate minimum
efficiency standards for Category I and
Category IV gas furnaces. (AGA, No. 27
at p. 6) AGL made comments similar to
those of AGA. (AGL, No. 31 at p. 6)
3 A Category I vented appliance is an appliance
that operates with a non-positive vent static
pressure and with a vent gas temperature that
avoids excessive condensate production in the vent.
(National Fuel Gas Code, NFPA54/ANSI Z223.1,
American Gas Association, 2006)
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AGA contends that DOE should
withdraw the direct final rule and
proceed with the notice of proposed
rulemaking in this proceeding to
consider establishing separate standards
for Category I and Category IV gas
furnaces based on their different venting
and condensing characteristics. (AGA,
No. 27 at p. 6)
Conversely, AHRI stated that the
furnace design dictates what types of
venting systems are acceptable, not the
converse, and any suggestion that a
similar natural draft furnace must be
provided to replace an old natural draft
furnace in order to maintain a unique
utility of the furnace reverses the
relationship between the furnace and
the vent system. AHRI also stated that
the function of any furnace is to provide
heat for residences, and DOE is required
to address the utility or unique features
of appliances and equipment only.
AHRI noted that a new gas furnace
using a different type of venting system
can be installed as a replacement
without changing the occupants’
comfort level or the heating ability of
the furnace, and that the venting system
concerns are simply a matter of cost and
the existence of an appropriate pathway
for the venting system, which are issues
that have been analyzed by DOE and
others in the past. (AHRI, No. 46 at pp.
3–4)
In response to these comments, DOE
notes that, in evaluating and
establishing energy conservation
standards, EPCA directs DOE to divide
covered products into classes based on
differences including the type of energy
used, capacity, or other performancerelated feature that justifies a different
standard for products having such
feature. (42 U.S.C. 6295(q)) In deciding
whether a feature justifies a different
standard, DOE must consider factors
such as the utility of the feature to users.
Id. In evaluating AGA’s suggestion to
consider separate product classes for
furnaces using Category I and Category
IV venting, DOE considered the utility
to consumers of being able to use one
venting type versus the other. DOE
believes that the utility derived by
consumers from furnaces is in the form
of the space heating function that the
furnace performs. DOE notes that a
furnace requiring Category I venting and
a furnace requiring Category IV venting
are both capable of providing the same
heating function to the consumer, and,
thus, provide virtually the same utility
with respect to that primary function.
AGA contends that the ability to vent a
furnace with Category I venting
provides furnace consumers with a
special utility, due to the cost-saving
benefits as compared to having to
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retrofit a venting system to
accommodate a Category IV furnace.
DOE does not agree with the
characterization of reduced costs
associated with Category I venting in
certain installations as a special utility,
but rather, it is an economic impact on
consumers that must be considered in
the rulemaking’s cost-benefit analysis.
Accordingly, DOE did not establish
separate product classes for furnaces
utilizing Category I and Category IV
venting systems, but instead considered
the additional costs of Category IV
venting in its analyses performed for the
DFR.
2. Causing the Unavailability of
Category I Gas Furnaces in the Northern
Region May Have Serious Adverse
Consequences for Consumers and the
Environment
AGA stated that: (1) Causing the
unavailability of Category I gas furnaces
in the northern region has the potential
to increase health and safety risks due
to improper venting; (2) customers faced
with having to replace an existing
Category I non-condensing gas furnace
with a Category IV condensing gas
furnace may choose to repair the
existing furnace to avoid expensive
venting and condensate disposal
modifications associated with the new
furnace; (3) delayed replacement of
equipment past their useful life has the
potential to increase energy
consumption and environmental
impacts. (AGA, No. 27 at p. 6) AGL,
CenterPoint Energy, Metropolitan
Utilities District (MUD), National Fuel
Gas Distribution Corporation (NFGD),
and Questar Gas made comments
similar to those of AGA. (AGL, No. 31
at p. 5; CenterPoint Energy, No. 33 at p.
2; MUD, No. 29 at p. 1; NFGD, No. 28
at p. 1; Questar Gas, No. 48 at p. 1)
On the other hand, AHRI stated that
the concerns about safety when
establishing a standard at 90-percent
annual fuel utilization efficiency
(AFUE) are no different that those
already present in situations where
consumers do not repair faulty
equipment or perform unsafe home
repairs. (AHRI, No. 46 at p. 4) National
Grid stated that the proposed standards
would help their customers achieve
their heating needs while using less
energy and saving money. (National
Grid, No. 30 at p. 1)
In response, proper venting of a
condensing furnace, which is guided by
the National Fuel Gas Code and, in
many cases, by local building codes, is
designed to alleviate health and safety
risks. DOE notes that contractors
currently have a legal responsibility to
perform repairs according to the
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requirements of applicable codes.
Problems associated with contractors
not following proper procedures could
occur in the case of replacing a gas
furnace with a non-condensing furnace
as well.
Failure of the heat exchanger or
combustion system is the event that is
most likely to create a need for
replacement. DOE believes that
consumers faced with a furnace
replacement situation would be unlikely
to opt for repair because of the high cost
of replacing these components, along
with the possibility that further
expensive repairs might be needed in
the near future. Therefore, DOE believes
that delayed replacement, and the
associated environmental impacts, is
unlikely.
AGA stated that customers that
replace a Category I gas furnace with a
Category IV gas furnace may orphan a
common-vented gas water heater. It
could lead to improperly vented water
heaters, which may pose serious health
and safety risks. (AGA, No. 27 at p. 7)
AGL, CenterPoint Energy and MUD
made comments similar to those of
AGA. (AGL, No. 31 at pp. 6–7;
CenterPoint Energy, No. 33 at p. 5;
MUD, No. 29 at p. 1)
AHRI stated that: (1) In the past ten
years, nearly 10 million condensing
furnaces have been sold in the U.S., of
which about 7.5 million units were
replacement installations; (2) some of
those must have resulted in ‘‘orphaned’’
gas water heaters; (3) there is no
evidence from the field over that time
that consumers are incurring a higher
safety risk because they chose to not
address the water heater’s venting
system when the new condensing
furnace was installed. (AHRI, No. 46 at
p. 4)
In response, proper venting of an
orphaned water heater would alleviate
the risks mentioned by the commenters.
DOE again notes that proper venting of
an orphaned water heater is guided by
the National Fuel Gas Code and, in
many cases, by local building codes.
The same points made above about
contractors apply in this case as well.
DOE also notes that the above comment
by AHRI suggests that serious health
and safety risks are unlikely and that the
service industry already has in place
procedures for identifying and
rendering unsafe equipment inoperable
(red tag) to safeguard the consumer. In
addition, DOE believes that through
training and experience installing
condensing furnaces, installers will
become increasingly aware and skilled
in the treatment of orphaned water
heaters.
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AGA argued that the unavailability of
Category I, non-condensing gas furnaces
could lead customers to make lessefficient appliance choices. Specifically,
AGA stated that fuel switching or
different initial fuel choice could occur
where customers select: (1) Electric
furnaces instead of gas furnaces; (2)
electric heat pumps instead of gas
furnaces, especially where central air
conditioning is already installed; (3)
electric water heaters instead of gas
water heaters; or (4) electric heat pumps
and electric water heaters instead of gas
furnaces and gas water heaters. AGA
stated that by installing electric
appliances rather than natural gas
appliances, consumers are likely to pay
more in annual operating costs while
contributing to increased total energy
consumption and environmental
emissions when measured on a source
or full-fuel-cycle basis. (AGA, No. 27 at
p. 7)
For the direct final rule, DOE did not
explicitly quantify the potential for fuel
switching from gas furnaces to electric
heating equipment, based upon the
following reasoning. DOE reviewed the
2005 Residential Energy Consumption
Survey (RECS) 4 to assess the type of
space-heating system utilized by
consumers as a function of house
heating load. Gas furnaces are primarily
utilized in households with high
heating loads, while electric space
heating systems are almost exclusively
used in households with low heating
loads. Generally, this is because the
operating costs of electric space heating
systems are relatively high due to the
price of electricity, so using an electric
system in a cold climate is significantly
more expensive than using a gas
furnace. Based on the above finding,
DOE inferred that few consumers in the
northern region would be likely to
switch to electric space heating systems
as a result of the amended standard for
gas furnaces.
In addition, replacing a gas furnace
with electric space heating incurs
substantial costs, because of the
complexity involved in modifying the
installation. As described in appendix
9–B of the DFR technical support
document (TSD),5 for a household with
a gas furnace to switch to electric space
heating, a separate circuit up to 120amps would be needed, depending on
the house heating design requirements.
4 U.S. Department of Energy—Energy Information
Administration, Residential Energy Consumption
Survey: 2005 Public Use Data Files, 2008. https://
www.eia.doe.gov/emeu/recs/recspubuse05/
pubuse05.html.
5 See: https://www1.eere.energy.gov/buildings/
appliance_standards/residential/residential_
furnaces_central_ac_hp_direct_final_rule_tsd.html.
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The cost to install such a circuit would
vary from approximately $293 to $608,
and some installations would require a
new panel board to serve this higher
amp circuit, at a cost estimated at $985
to $2,625.6 Given the initial costs
involved in replacing a gas furnace with
electric space heating, combined with
the much higher operating costs of an
electric heating system, DOE believes
that the approach used for the DFR is
reasonable.
With regard to initial fuel choice in
new homes, DOE found fuel switching
not to apply because the amended
standard would not significantly change
the situation currently faced by
builders. On average, there is no total
installed price differential between an
80-percent AFUE gas furnace and a
90-percent AFUE gas furnace, so DOE
reasoned that builders are unlikely to
alter their current behavior on the basis
of amended energy conservation
standards.
AGA stated that: (1) Replacing a noncondensing gas furnace with a
condensing gas furnace may be
infeasible for some homes where sidewall venting is not an option (e.g., in
row houses, historic homes, or multistory housing complexes), may be costprohibitive in other homes, may lead to
orphaned water heaters, and, in all
cases, would increase installation costs
and require trained installers to ensure
proper venting of all combustion
appliances.; (2) DOE’s analysis in this
proceeding significantly underestimates
the costs associated with installation of
condensing gas furnaces that consumers
would actually incur, both as a result of
underestimating specific cost items and
of failing to include specific cost items.
(AGA, No. 27 at p. 7) MUD made a
similar comment. (MUD, No. 29 at pp.
1–2) Questar Gas also stated that with
many older homes and multi-family
units, the venting modifications and
condensate disposal requirements
would be cost-prohibitive and, in some
cases, impossible. (Questar Gas, No. 48
at p. 1)
DOE acknowledges that there may be
increased technical complexity
associated with replacing a noncondensing gas furnace with a
condensing gas furnace, but DOE
disagrees with AGA’s contention that
replacing a non-condensing gas furnace
with a condensing gas furnace may be
infeasible for some homes where sidewall venting is not an option. Many
condensing furnaces are vented using
6 Costs estimated using 2010 RS Means
Residential Cost Data. (RS Means Company Inc., RS
Means Residential Cost Data. 29th Annual Edition
ed. 2010: Kingston, MA).
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vertical vents, which provides an
additional option to address cases
where side-wall access in not available.
Moreover, AGA has not demonstrated
that trained installers are unavailable in
the marketplace to handle installations
under the amended standards at the
time of compliance. Condensing
furnaces have been available for more
than 20 years, and in the north
condensing furnaces represent 68
percent of the market. The large scale of
installations demonstrates the
availability of trained installers to
handle installations under the amended
standards.
Regarding AGA’s second point, DOE
believes that it has included all relevant
cost items. As further described below
in section II.B.7, DOE’s estimates of
specific cost items are similar to those
provided by AGA in several instances.
Where they are lower, DOE believes that
the available evidence (discussed
below) supports the costs used by DOE.
3. DOE’s Regional Standard Harms
Consumers
AGA stated that: (1) DOE’s analysis
shows that the 90-percent AFUE
standard for the northern region would
impose a net cost on 10 percent of
consumers, have no impact on 71.4
percent of consumers, and have a net
benefit for 18.6 percent of consumers;
(2) the fact that a significant percentage
of customers will experience a net cost
reflects the substantial costs associated
with replacing a Category I noncondensing gas furnace with a Category
IV condensing gas furnace; (3) DOE has
failed to explain why the fact that some
consumers will see a net benefit justifies
imposing net costs on other consumers.
(AGA, No. 27 at p. 10)
In selecting the standards in the DFR,
DOE needed to determine whether the
benefits of the standard exceed its
burdens to the greatest extent
practicable, in light of the seven
statutory factors provided by EPCA. (42
U.S.C. 6295(o)(2)(B)(i)) Impacts on
consumers are one of those factors.
Under the amended standard for nonweatherized gas furnaces, nearly twice
as many consumers would have a net
benefit as would have a net cost.
Further, the standard would provide
average LCC savings of $155 and a
median payback period of 10.1 years.
DOE believes that on balance, the
consumer impacts of the amended
energy conservation standard qualify as
positive impacts within the context DOE
has used in past standards rulemakings.
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67043
4. DOE’s Analysis of Natural Gas Prices
Is Inadequate
AGA and AGL stated that the direct
final rule did not consider the impact
that the regional standard would have
on natural gas prices. (AGA, No. 27 at
p. 11; AGL, No. 31 at 5) DOE did
consider the impact of the chosen
standards on natural gas prices, as
described in section IV.G.6 of the DFR.
As described in chapter 14 of the DFR
TSD, the projected impact on natural
gas prices is very small (0.14 to 0.21
percent). Because the impact is so small,
DOE did not use a separate price
forecast for the selected TSL.
AGA stated that: (1) DOE has not used
the most recent version of the Energy
Information Administration’s (EIA)
Annual Energy Outlook (i.e., AEO 2011)
in support of the direct rule; (2) DOE
has not explained why it could not have
revised its analysis based on the most
recent data; (3) EIA’s AEO 2011 forecast
of residential natural gas prices through
2030 is substantially reduced from the
2010 forecast; (4) EIA’s price forecast
has been trending downward over the
last several years; (5) DOE’s use of the
AEO 2010 Reference Case in analyzing
life-cycle-cost savings of gas furnaces
overstates potential cost savings. (AGA,
No. 27 at p. 11) APGA and MUD also
objected to DOE’s use of the AEO 2010
rather than the AEO 2011 projections.
(APGA, No 24 at p. 2; MUD, No. 29 at
p. 2)
In contrast, the joint comment from
ASAP, NRDC, ACEEE, CFA, ASE,
NPCC, NEEP, and EJ (Joint Comment)
stated that the furnace standards are
cost-effective, even if AEO 2011 price
trends are used in the LCC analysis. The
Joint Comment noted that additional
analysis published by DOE in response
to a request from American Public Gas
Association (APGA) showed average
positive LCC savings for both
replacement and new construction
installations even if lower natural gas
prices are used in the analysis. (Joint
Comment, No. 47 at p. 4–5)
In response, DOE notes that the
Department uses the latest available
version of AEO that is possible under its
rulemaking schedule. The AEO 2011
was not available at the time the original
DFR analysis was conducted. However,
in response to comments on the DFR,
DOE evaluated the impact of using the
AEO 2011 price forecast on the LCC
results. In this case, the average LCC
benefit decreases from $155 (using the
AEO 2010 forecast) to $127.
AGA contends that: (1) DOE should
use a marginal price analysis when
evaluating the impact of natural gas
prices on the life-cycle-cost savings
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associated with conservation standards;
(2) a marginal price analysis reflects the
incremental or decremental gas costs
most closely associated with changes in
the amount of gas consumed when
comparing appliances of different
efficiencies; (3) DOE uses marginal
residential and commercial electricity
prices in its life-cycle-cost analysis; (4)
technical analysis by the Gas
Technology Institute (GTI) includes a
marginal price analysis for the 90percent AFUE regional standard, by
using citygate prices 7 as a proxy for
marginal price and reducing the
residential gas price to reflect a removal
of a portion of fixed costs. AGA stated
that: (1) The results of GTI’s analysis
show that the life-cycle-cost savings of
replacing a non-condensing gas furnace
with a condensing gas furnace are
negative in the northern region using
citygate prices as a proxy for marginal
price, based on AEO 2011 forecasts of
natural gas prices; (2) under the
alternative method of removing fixed
costs as a proxy for marginal prices, the
analysis similarly shows that the lifecycle-cost savings of installations of 90percent AFUE condensing gas furnaces
in the replacement market in the
northern region are negative or only
barely positive. (AGA, No. 27 at p. 13)
In contrast, the Joint Comment stated
that DOE’s approach for developing
natural gas prices, which incorporates
regional and seasonal variations, is
appropriate and that the prices DOE
derived reflect the prices faced by
furnace users. (Joint Comment, No. 47 at
pp. 4–5)
In response, DOE believes that
average natural gas prices are suitable
for evaluating the impacts of furnace
standards. DOE also used average
natural gas prices in the 2010 final rule
for energy conservation standards for
residential water heaters, direct heating
equipment, and pool heaters. 75 FR
20112, 20158 (April 16, 2010). Although
marginal energy prices are in theory
preferable when evaluating the lifecycle-cost savings associated with
standards, past analysis found that
marginal natural gas prices were only
4.4 percent lower than average prices in
the winter, when furnaces are used.8 At
7 The ‘‘city gate’’ is generally the point where
natural gas is transferred from an interstate or
intrastate pipeline to a local natural gas utility. The
‘‘city gate price’’ is the sales price of the natural gas
at this point; the price reflects the wholesale/
wellhead price, as well as the cost of transporting
the natural gas by pipeline to the citygate.
8 Chaitkin, S., J. McMahon, C. DunhamWhitehead, R. van Buskirk and J. Lutz. 2000.
Estimating Marginal Residential Energy Prices in
the Analysis of Proposed Appliance Energy
Efficiency Standards. Conference Paper,
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the time of the DFR analyses, DOE was
unable to obtain marginal gas prices for
the following reasons. The RECS 2005
billing data that allow estimation of
marginal prices were not available at
that time due to EIA’s concerns over
maintaining confidentiality of the
survey respondents. In the alternative,
DOE investigated development of
marginal prices from gas utility tariffs,
but found that, in general, gas tariffs
include provisions for modifying
consumer prices on a monthly basis to
account for changes in commodity
price. Therefore, the tariffs themselves
do not provide sufficient information to
determine the consumer price.
In response to comments on the DFR,
DOE estimated marginal natural gas
prices using newly-available RECS 2005
billing data. Using this data in DOE’s
model, the average LCC benefits
decrease from $155 (using average
energy prices) to $128 (using marginal
energy prices).
5. DOE Has Not Justified Its Use of
Experience Curve Price Effects
AGA stated that: (1) DOE’s use of
experience curves to support the direct
final rule is premature; and (2) DOE has
not yet issued a final rule or policy
regarding the use of experience curve or
learning curve analyses or responded to
the comments submitted in that
proceeding. (AGA, No. 27 at p. 14)
To clarify, on February 22, 2011, DOE
published a Notice of Data Availability
(NODA, 76 FR 9696) in the Federal
Register stating that DOE may consider
changes to how it addresses equipment
price trends, as part of DOE’s ongoing
efforts to keep improving its regulatory
analyses. DOE responded to comments
on the NODA and outlined its refined
policy regarding the use of experience
curves in the direct final rule in this
proceeding and several other
rulemakings mentioned below. In the
DFR, DOE presented a range of
estimates for product price trends,
including trends derived using the
experience curve approach.
AGA and APGA stated that DOE’s
experience curve analysis in the direct
final rule is unexplained and
unjustified. (AGA, No. 27 at p. 14;
APGA, No. 24 at p. 3) AGA stated that
DOE has not adequately shown that,
based on historical price data, the price
trend for Category IV condensing gas
furnaces would continue to trend
downward over time at the rate that
DOE has assumed. Nor is there any
justification, according to those
commenters, as to why such curves
Proceedings of the ACEEE Summer Study on
Energy Efficiency in Buildings.
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should be so much greater for gas
equipment than for electric equipment.
(AGA, No. 27 at pp. 14–15) Laclede Gas
also stated that the experience rates
used by DOE were overstated. (Laclede
Gas, No. 27 at pp. 2–3)
On the other hand, the Joint Comment
supported DOE’s use of learning rates in
the analysis. (Joint Comment, No. 47 at
p. 3) It stated that the incorporation of
learning rates in this rulemaking is
consistent with recent DOE final rules
on refrigerators, clothes dryers, and
room air conditioners, where DOE also
applied learning rates. 76 FR 57516,
57548–50 (Sept. 15, 2011); 76 FR
52852–52854 (Aug. 24, 2011).
In response, DOE’s derivation of price
trends for central air conditioners, heat
pumps, and furnaces is described in
detail in appendix 8–J of the DFR TSD.
The essential justification for using the
experience curve approach is that it
yields a statistically robust method for
analyzing the long-term declining real
price trend, based on Producer Price
Indexes (PPI), observed for central air
conditioners and furnaces. There exists
an extensive economic literature on
learning and experience curves, based
on robust observations spanning many
decades.9 The concept was pioneered
for the manufacturing sector, and it has
since been applied to a diverse set of
products and services.10 Learning and
experience curves are now regularly
incorporated into economic modeling,
including in the National Energy
Modeling System (NEMS). Broader
discussion of the reasons why DOE
believes use of the experience curve
approach is reasonable is provided in
the final rule for refrigerators,
refrigerator-freezers, and freezers. 76 FR
57516, 57548–50 (Sept. 15, 2011).
DOE did not have historical price data
specific to condensing gas furnaces.
However, the growing share of
condensing furnaces over the past two
decades (from approximately 23 percent
in 1990 to approximately 50 percent in
2010) 11 is reflected in the PPI series that
DOE used to derive an experience rate
for furnaces.
9 A draft paper, ‘‘Using the Experience Curve
Approach for Appliance Price Forecasting,’’ posted
on the DOE Web site at https://www.eere.energy.gov/
buildings/appliance_standards, summarizes the
data and literature currently available to DOE that
is relevant to price forecasts for selected appliances
and equipment.
10 Weiss, M., Junginger, M., Patel, M.K., Blok, K.,
2010a. ‘‘A review of experience curve analyses for
energy demand technologies.’’ Technological
Forecasting and Social Change 77, 411–428.
11 Gas Appliance Manufacturers Association
(GAMA). Historical Shipment Data (1987–2003),
provided to DOE April 10, 2005. AHRI. Historical
Shipment Data (2004–2009), provided to DOE June
20, 2010.
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For warm-air furnaces, the medium
estimated learning rate (defined as the
fractional reduction in price expected
from each doubling of cumulative
production) is 30.6 percent. For unitary
air conditioners, the medium estimated
learning rate is 18.1 percent. The higher
rate for furnaces results from the steeper
decline in the inflation-adjusted historic
price index for warm air furnaces.12
In response to comments on the DFR,
DOE evaluated the impact of not using
the learning rate on the LCC results.
Using this input in DOE’s model, the
average LCC benefits decrease from
$155 (using medium estimated learning
rates) to $148 (not using the learning
rates).
6. DOE’s Estimate of Expected Furnace
Lifetime Is Unsupported
AGA stated that: (1) DOE’s estimate of
a 23.68 year lifetime for a gas furnace is
contradicted by other DOE and
manufacturer estimates; (2) in its latest
DOE Multi-Year Program Plan, updated
in October 2010, DOE estimated that the
lifetime of a non-weatherized gas
furnaces is 16 years; (3) according to
GTI’s recent technical analysis, the
16-year useful life estimate is consistent
with other manufacturer estimates of
useful life; (4) GTI’s analysis shows that
using a 16-year useful life estimate
substantially reduces the life-cycle-cost
savings for the 90-percent AFUE gas
furnace in the northern region. (AGA,
No. 27 at pp. 15–16) Laclede Gas
Company made a similar comment.
(Laclede, No. 27 at p. 4)
The Joint Comment stated that the
fixed 16-year lifetime was unreasonable
for non-weatherized gas furnaces. It
noted that DOE used a distribution of
lifetimes to reflect expected failure rates
in the field and that DOE derived the
average lifetime of 23.7 years for nonweatherized gas furnaces from a
combination of sources. (Joint
Comment, No. 47 at pp. 4–5)
In response, the value in DOE’s 2010
Multi-Year Program Plan 13 was an
estimate from the published literature,
rather than the result of empirical
analysis. DOE’s DFR methodology
utilized a more rigorous product
lifetime analysis, including historical
data on appliance shipments, total
appliance stock, and the fraction of
surviving appliances to estimate the
mean life and mortality shape factor
using the best-fitting Weibull survival
12 See
appendix 8–J of the DFR TSD.
13 U.S. Department of Energy Efficiency and
Renewable Energy Building Technologies Program.
Multi-Year Program Plan, Building Regulatory
Programs: 2010–2015 (Oct. 2010). (https://
apps1.eere.energy.gov/buildings/publications/pdfs/
corporate/regulatory_programs_mypp.pdf)
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function.14 Changing the average
lifetime to 16 years results in projected
shipments that are approximately 30
percent to 40 percent greater than the
forecast in the DFR. In this case, the NIA
model’s ‘backcast’ diverges significantly
from historical shipments. That is, a
16-year average lifetime is inconsistent
with historical data on furnace
shipments. Consequently, DOE has
confirmed that the DFR’s estimated
average lifetime of 23.7 years for nonweatherized gas furnaces remains the
best estimate of that value. However, in
response to comments on the DFR, DOE
evaluated the impact of using the
average fixed 16-year lifetime on the
LCC results. Using that input in DOE’s
model, the average LCC benefits
decrease from $155 (using DOE’s
lifetime methodology) to $72 (using a
16-year lifetime).
7. DOE Has Not Justified Its
Assumptions Regarding Installation
Costs
AGA stated that: (1) DOE has not
adequately supported the specific
installation cost adders and distribution
of occurrences that it has used; (2)
DOE’s analysis significantly
underestimates the costs associated with
installation of condensing gas furnaces
that consumers would actually incur,
both as a result of underestimating
specific cost items and failing to include
specific cost items; (3) AGA submitted
data in this proceeding showing that the
cost for installation of condensing
furnaces in commonly-vented systems
in total would range from $1,500 to
$2,200 (in 2005$) based on a survey of
its members. AGA recommended that
DOE apply a probability distribution for
each installation cost adder and include
that variation as an independent
variable in the calculation. (AGA, No.
27 at p. 16) ACCA also stated that the
standard mandating condensing
furnaces in the northern region is based
on incomplete or inaccurate
assumptions on the costs for retrofitting
homes. (ACCA, No. 27 at p. 4) The UGI
Distribution Companies commented that
DOE’s installation cost estimates for
accommodating high-efficiency gas
furnace and orphaned gas water heater
venting issues seem unrealistically low,
particularly for row homes, multi-family
dwellings, and older urban structures
with high masonry chimneys. (UGI
Distribution Companies, No. 22 at p. 4)
14 DOE’s
lifetime methodology is described in:
Lutz, J. A. Hopkins, V. Letschert, V. Franco, and A.
Sturges. ‘‘Using national survey data to estimate
lifetimes of residential appliances’’ published in
HVAC&R Research (Volume 17, Issue 5, 2011).
(URL: https://www.tandfonline.com/doi/abs/
10.1080/10789669.2011.558166)
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In contrast, the Joint Comment stated
that DOE had considered the comments
from interested parties and conducted a
thorough analysis of installation costs
for both replacement and new
construction installations. (Joint
Comment, No. 47 at p. 2)
In response to AGA’s first point, the
sources and methods used to derive the
specific installation cost adders and
distribution of occurrences are
described in detail in appendix 8–B of
the DFR TSD. DOE believes that it has
included all relevant cost items.
The range of $1,500 to $2,200
mentioned by AGA (in $2005;
equivalent to $1,648 to $2,417 in 2009$)
refers to the added cost for installation
of condensing furnaces in common
vented systems.15 As shown in Table
II.1, the range of many of DOE’s specific
costs are similar to the ranges given in
AGA’s survey. For the relining of an
existing chimney or resizing of a vent to
accommodate the remaining appliance,
DOE believes that AGA’s relining costs
are more typical for long vertical vent
lengths (households with two floors or
more), whereas the costs used by DOE
represent a wide range of installations.
In terms of installing a drain pan for
condensate, DOE’s estimate is based on
the material cost of the drain pan from
two retail Web sites.16 Despite these
differences, DOE’s total estimated
average cost ($1,596) is close to the
lower end of AGA’s estimate. (DOE
applied the structural modifications and
the relining costs in Table II.1 to all
commonly-vented systems that require
venting modifications to satisfy the
safety requirements. DOE estimated that
such modifications are required for
about 36 percent of all commonlyvented systems.) In summary, DOE
concludes that its analysis of
installation costs included all relevant
items and used an appropriate range of
costs for each item. In response to
comments on the DFR, DOE evaluated
the impact of using AGA’s installation
costs. Using these inputs in DOE’s
model, the average LCC benefits
increase from $155 (using DOE’s
installation cost estimates) to $168
(using AGA’s installation cost
estimates). The main reason why the
LCC benefits based on AGA’s
assumptions increase is that under
DOE’s estimates, performance of
structural modifications is applied to all
15 AGA Comment Letter to DOE on NOPR
Furnace Rulemaking and TSD (Nov. 10, 2010).
(Docket Number: EE–2009–BT–STD–0022)
16 Alpine Home Air (URL: https://www.alpine
homeair.com/viewproduct.cfm?product
ID=453056758); Comfort Gurus (URL: https://www.
comfortgurus.com/product_info.php/products_id/
5368)
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installations and has higher cost,
whereas AGA’s assumptions regarding
relining chimney/resizing vents and
condensate installation issues are
applied to only a fraction of
installations.
TABLE II.1—INSTALLATION COSTS FOR CONDENSING FURNACES IN COMMONLY-VENTED SYSTEMS
AGA cost range
(average)
(2009$) *
DOE cost range for
northern region
(average)
(2009$)
$330–$494 ($412)
$131–$1887 ($518)
$659–$1098 ($879)
$95–$1404 ($548)
$165–$275 ($220)
$45–$45 ($45)
$220–$220 ($220)
$275–$330 ($302)
$101–$272 ($184)
$216–$455 ($300)
Additional venting system/installation requirements
Perform structural modifications (including boring holes in interior walls, floors, exterior walls for
vents and new vent termination kit) .....................................................................................................
Reline existing chimney or resize vent to accommodate the remaining appliance (code requirement
for proper vent sizing) ..........................................................................................................................
Install drain pan for condensate from condensing furnace (code requirement to avoid structural damage) ......................................................................................................................................................
Install freeze protection for condensate line to ensure reliability of disposal (for installation outside of
conditioned space) ...............................................................................................................................
Install condensate drain, pump, acid neutralizer, etc ..............................................................................
* Cost adjusted using CPI from 2005$ to 2009$.
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AHRI pointed out that the 1994 Gas
Research Institute (GRI) Gas Furnace
Survey 17 found that as more condensing
furnaces were sold in a specific area, the
cost of installation became lower,
suggesting that this could occur in the
case of the standard for the northern
region (AHRI, No. 46 at p. 4). DOE
agrees that the trend mentioned by
AHRI could occur and potentially result
in lower installation costs than those
estimated for the DFR.
AGA stated that: (1) The 2007 Furnace
Rule 18 relied on data from a 1994 GRI
furnace survey to determine the
percentage of homes in which gas
appliances were commonly-vented; (2)
DOE changed the data set in the direct
final rule proceeding, relying instead on
an older 1991 GRI water heater
survey; 19 (3) DOE has not explained the
basis for the change in the data set.
(AGA, No. 27 at p. 16)
In response, to determine the fraction
of installations with common venting,
DOE used both the 1994 GRI furnace
survey and a 1991 GRI water heater
survey. DOE used the 1990 survey to
develop regional fractions of the
common venting installations, primarily
because it is a larger survey (32,000 data
points) compared to the 1994 survey
(1,300 data points). On average, both
17 Jakob, F. E., J. J. Crisafulli, J. R. Menkedick, R.
D. Fischer, D. B. Philips, R. L. Osbone, J. C. Cross,
G. R. Whitacre, J. G. Murray, W. J. Sheppard, D. W.
DeWirth, and W. H. Thrasher, Assessment of
Technology for Improving the Efficiency of
Residential Gas Furnaces and Boilers, Volume I and
II—Appendices, September, 1994. Gas Research
Institute. AGA Laboratories, Chicago, IL. Report No.
GRI–94/0175.
18 U.S. Department of Energy—Energy Efficiency
& Renewable Energy, Technical Support Document:
Energy Efficiency Standards for Consumer
Products: Residential Furnaces and Boilers, 2007.
Washington, DC.
19 D.D. Paul et al., Assessment of Technology for
Improving the Efficiency of Residential Gas Water
Heaters, December, 1991. Battelle. Columbus.
Report No. GRI–91/0298.
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surveys produce similar results: The
1990 survey showed 57 percent of
households with a gas water heater had
common venting, while the 1994 GRI
study showed 52 percent of gas furnaces
had common venting. Combining these
fractions with the RECS 2005 household
sample resulted in a nationwide
estimate that 50 percent of gas furnaces
are commonly vented with gas water
heaters. For the northern region this
fraction is 57 percent.
AGA stated that according to GTI,
DOE appears to have used a national
average figure of the percent of housing
stock that would require the chimney to
be relined when installing a condensing
gas furnace as opposed to a northern
regional fraction, potentially
understating installation costs
associated with chimney relining that
would support a regional standard.
(AGA, No. 27 at p. 17) DOE used the
1994 GRI furnace survey data to derive
the fraction of households with chimney
venting for the northern region. This
survey showed that 72 percent of the
northern installations utilize chimney
venting (see TSD, appendix 8–B for
details).
8. DOE Failed To Conduct an Adequate
Analysis of Fuel Switching Between
Natural Gas and Electric Appliances
AGA stated that: (1) DOE’s analysis of
the potential for fuel switching is
cursory and ignores the problems
consumers face when having to install
a condensing gas furnace; (2) DOE’s
analysis fails to consider the wide range
of options consumers actually face in
making appliance choices; (3)
consumers are sensitive to the relative
differences in the total upfront cost of
purchasing the appliance and having it
installed, and often undervalue the
differences in annual operating costs; (4)
even assuming that switching from a gas
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furnace to an electric furnace will
require additional installation costs for
electrical circuitry, consumers will be
encouraged to fuel switch where the
total equipment and installation costs of
a 90-percent AFUE condensing gas
furnace exceed the total equipment and
installation costs of a comparable
electric furnace. (AGA, No. 27 at pp. 18–
20) Concerns that the condensing
furnace standard could lead consumers
to switch to electric heating were also
raised by AGL, APGA, CenterPoint
Energy, the UGI Distribution
Companies, City Utilities of Springfield,
Laclede Gas Company, and Questar Gas.
(AGL, No. 27 at pp. 7–8; APGA, No. 24
at p. 8; CenterPoint Energy, No. 33 at p.
3; UGI Distribution Companies, No. 22
at p. 4; City Utilities of Springfield, No.
26 at p. 1; Laclede, No. 44 at p. 3;
Questar Gas, No. 48 at p. 1)
DOE agrees that consumers are
sensitive to the relative differences in
the total upfront cost of purchasing the
appliance and having it installed, and
often undervalue the differences in
annual operating costs. However, AGA’s
contention that consumers will be
encouraged to fuel switch where the
total installed costs of a 90-percent
AFUE condensing gas furnace exceed
the total equipment and installation
costs of a comparable electric furnace
seems to take the extreme (and
unsubstantiated) view that consumers
place little value on differences in
operating costs at all. Further, the
difference in annual operating costs
between a condensing gas furnace and
an electric furnace in the northern
region are very large. A household using
40 MMBtu/year of natural gas, which is
the estimated average for a condensing
furnace in the northern region, would
incur annual costs of $400 to $600,
while an electric furnace satisfying the
same heating load would incur costs
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ranging from $800 to $1,700. Even in
parts of the northern region where the
heating load is half of the above average,
the operating cost differential is still
significant.
Given the initial costs involved in
replacing a gas furnace with electric
space heating, combined with the much
higher operating costs of an electric
heating system, DOE believes that the
approach used for the DFR is
reasonable.
AGA stated that: (1) DOE
acknowledges but fails to address the
possibility that requiring the
replacement of a non-condensing gas
furnace with a 90-percent AFUE
condensing gas furnace will lead to an
orphaned water heater, thereby
encouraging consumers to replace the
gas water heater with an electric
resistance water heater; (2) consumers
will be encouraged to switch to an
electric water heater where the costs of
addressing the venting issues associated
with an orphaned gas water heater
exceed the total equipment and
installation costs of an electric water
heater. (AGA, No. 27 at p. 19)
DOE believes that consumers are
unlikely to engage in large-scale
switching from a gas-fired water heater
to an electric water heater. If the gas
water heater is near the end of its useful
lifetime, the consumer may elect to
purchase a new power vent gas water
heater rather than incur the expense of
re-lining. Some consumers could elect
to replace the gas water heater with an
electric water heater to avoid the cost of
relining, but estimates of electric water
heater installation cost plus electrical
service installation plus the extra energy
cost indicate that the total is higher than
the cost of relining, so this possibility is
unlikely.20
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9. DOE Has Not Considered the Costs of
Enforcement
AGA stated that: (1) The technical
support documents in this proceeding
do not contain any analysis of the
impacts of enforcement costs on
consumers, manufacturers, or other
market participants, including other
entities that may additionally be
required to enforce the regional
standard, such as equipment distributor
or installers; and (2) without an
assessment of enforcement costs, the
economic justification of the standards
in this proceeding is incomplete. (AGA,
No. 27 at p. 21) Concerns that DOE did
not consider enforcement costs were
20 See Appendix C of the final rule TSD for the
2007 furnace and boiler rulemaking. https://
www1.eere.energy.gov/buildings/
appliance_standards/residential/fb_tsd_0907.html.
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also expressed by ACCA, AGL, HARDI,
Laclede Gas Company, and NPGA.
(ACCA, No. 50 at p. 5; AGL, No. 31 at
p. 4; HARDI, No. 39 at p. 2; Laclede, No.
44 at p. 12; NPGA, No. 49 at p. 3)
In contrast, AHRI stated that: (1) DOE
should act quickly to open a rulemaking
on regional standards enforcement; and
(2) the fact that DOE has not yet
considered standards enforcement is not
a defect in the final rule. (AHRI, No. 46
at p. 5) The Joint Comment stated that
the enforcement plan proceeding,
required after adoption of a regional
standard, would be an appropriate time
for consideration of a DOE Office of
Hearings and Appeals (OHA) waiver
process designed to address any special
hardship situations. (Joint Comment,
No. 47 at pp. 4–5)
In response, DOE does not believe
that the cost of enforcement of regional
standards impacts the life-cycle cost,
payback period, or other factors
considered in the establishment of
energy conservation standards
differently than the costs of enforcement
of national energy conservation
standards. Rather, enforcement costs
will depend on the specific enforcement
framework mechanism that is put in
place. EPCA requires DOE to ‘‘initiate’’
an enforcement rulemaking not later
than 90 days after the issuance of a final
rule establishing regional standards and
to complete the rulemaking not later
than 15 months following the issuance
of the rule. (42 U.S.C. 6295(o)(6)(G)(ii)).
Clearly, the express provisions of the
statute contemplate the rulemaking on
enforcement of regional standards
commencing after the energy
conservation standards rulemaking has
been completed. Having the standards
in place is a necessary precursor to
evaluating potential enforcement efforts.
DOE plans to incorporate all feedback
from this standards rulemaking process
into the enforcement rulemaking, and
will assess the impact of that
enforcement regime in the context of the
enforcement rulemaking.
10. Impact on Low-Income Consumers
UGI and CenterPoint Energy stated
that the standard for the northern region
could harm low-income consumers due
to the higher first cost of installing a
condensing furnace. (CenterPoint
Energy, No. 33 at p. 6; UGI, No. 22 at
p. 4)
On the other hand, CFA and NCLC
highlighted the benefits that higher
furnace standards would bring to lowincome households, who are
predominately renters. They stated that
heating bills place a large burden on
moderate-income and low-income
families, and the standard would reduce
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67047
their energy bills and reduce the
demand for natural gas, thereby
moderating future price increases for
consumers. (CFA and NCLC, No. 36 at
p. 2)
DOE’s consumer subgroup analysis
(described in chapter 11 of the DFR
TSD) estimated that low-income
households show somewhat higher LCC
savings from more-efficient furnaces
than the general population. Regarding
the first cost, DOE agrees that because
many low-income consumers are
renters, the cost of replacing a furnace
would be incurred by the landlord and
would likely be passed on to the
consumer gradually in the form of
increased rent. DOE believes that these
factors moderate the impacts of
amended standards on low-income
consumers.
11. Sensitivity Analysis of the Standard
for Residential Gas Furnaces in the
Northern Region
DOE believes that the analysis
documented in the DFR and the
accompanying TSD provides sufficient
justification for its determination that
TSL 4 achieves the maximum
improvement in energy efficiency that is
technologically feasible and
economically justified and will result in
significant conservation of energy. DOE
further notes that it did not receive
comments critical of the models it used
in its analysis. However, because some
of the commenters devoted considerable
effort to developing recommendations
for alternatives to some of the inputs
that DOE used in its DFR analysis, DOE
conducted a new analysis to assess the
impact on consumers from using the
recommended alternatives. The
assumptions that DOE used in this
sensitivity analysis were the same as the
assertions made by AGA in its comment
as follows: (1) A furnace lifetime of 16
years for all households; (2) no decline
in furnace prices based on experience
curve analysis; (3) the ranges for the
added cost for installing condensing
furnaces in commonly-vented systems
recommended by AGA (see Table II.1);
(4) a natural gas price forecast based on
the AEO 2011 Reference case; and (5)
use of marginal natural gas prices (based
on analysis of RECS 2005 billing data).21
These assumptions reflect key
comments made by AGA (described
above) and a request made by APGA.
(APGA, No. 20 at pp. 1–2)
21 Documentation of the sensitivity analysis may
be found at DOE’s Residential Furnaces and Boilers
Web site—APGA Life-Cycle Cost Scenarios at:
https://www1.eere.energy.gov/buildings/appliance_
standards/residential/residential_furnaces_cac_hp_
direct_final_rule.html.
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Under the sensitivity analysis, the
average LCC savings for consumers in
the Northern region are $44. This value
is less than the average cited in the DFR
($155), but is still positive. Regardless,
this lower, but still positive, LCC
savings value is sufficient to
demonstrate economic justification of
TSL 4 under the criteria in 42 U.S.C.
6295(o). Thus, even under the
assumptions favored by AGA and
APGA, even if they were all correct, a
scenario DOE does not believe likely,
the amended standard still have a
positive impact on consumers in the
northern region.
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C. Comments on Standards for
Residential Central Air Conditioners
and Heat Pumps
The People’s Republic of China
(China) commented that the EER
standards should be cancelled and that
DOE should only adopt the SEER as the
air conditioner’s energy efficiency
evaluation ratio. China noted that SEER
reflects an air conditioner’s efficiency
over a whole season and in varying
conditions, while EER only reflects
performance under specific conditions
and, therefore, cannot reflect the energy
efficiency over an entire season. (China,
No. 8 at p. 3) For this reason, China
suggested that DOE only use SEER as
the regulating metric. (China, No. 8 at p.
3)
As noted in the direct final rule, DOE
believes that it has the authority to set
dual metrics when considering a
consensus agreement, and consequently,
DOE analyzed setting an EER standard
in the Hot-Dry region. 76 FR 37408,
37423 (June 27, 2011). DOE agrees with
China that SEER is more representative
of seasonal performance, but DOE also
believes that there is merit to having an
EER standard, because the conditions at
which EER is measured are common for
the Hot-Dry region. By using both SEER
and EER as metrics, DOE will have
standards for both seasonal efficiency
and peak efficiency, which it believes
will lead to additional energy savings in
the Hot-Dry region. Therefore, DOE will
not withdraw the EER standard levels
from the Hot-Dry region.
China further commented that
differences between DOE and
international standards for definitions
and test methods for off mode, as well
the classification of air conditioners,
will lead to increased costs for
manufacturers, and suggested that DOE
should harmonize its regulations with
international standards. Specifically,
China referenced International
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Standards IEC 62301,22 ISO 5151 and
ISO 13253.23 (China, No. 8 at p. 3)
IEC Standard 62301 is a test method
for measuring standby mode and off
mode energy consumption of household
appliances. As discussed in detail in the
April 1, 2011 central air conditioner and
heat pump test procedure SNOPR (76
FR 18105, 18108), DOE believes that the
IEC 62301 definitions and test method
are too broad to be applicable to
residential central air conditioners and
heat pumps. In response to China’s
concern about how DOE classifies air
conditioners as compared to ISO 5151
and ISO 13253, DOE notes its
definitions of residential ‘‘central air
conditioner’’ and ‘‘heat pump’’ are
determined by EPCA. (42 U.S.C.
6291(21) and 42 U.S.C. 6291(24)) DOE
determines the product classes for
central air conditioners and heat pumps
subject to the criteria in 42 U.S.C.
6295(q) and cannot alter these criteria to
align its definitions with international
standards.
D. Comments on Standby Mode and Off
Mode Standard Levels
1. Standby Mode and Off Mode Levels
for Residential Furnaces
In response to the standby mode and
off mode energy conservation standards
promulgated for residential furnaces,
DOE received several comments.
AHRI supported the standby mode
and off mode standards for residential
furnaces. (AHRI, No. 46 at p. 5) AHRI,
EarthJustice, and ACEEE commented
there is consensus agreement for the
standby mode and off mode standards
for furnaces promulgated in the DFR.
(AHRI and EarthJustice, No. 52 at p. 1;
ACEEE, No. 53 at p. 1)
Conversely, Horizon Plastics stated
that the standby mode and off mode
energy consumption requirements for
residential furnaces are too high and
will not drive any meaningful energy
conservation. (Horizon Plastics, No. 15
at p. 1) Further, Horizon Plastics
referenced Lawrence Berkeley National
Laboratory (LBNL) test data on 16
residential furnaces that showed
standby mode and off mode energy
consumption values ranging from 0 to
9.8 watts (W) as evidence that lower
levels are readily achievable. (Horizon
Plastics, No. 15 at p. 1) Horizon Plastics
22 The comment from China references ‘‘IEC
60321.’’ However, DOE believes this was an error
and that the comment was intended to reference
IEC 62301, Household Electrical Appliances—
Measurement of Standby Power.
23 ISO 5151: Non-ducted air conditioners and
heat pumps—testing and rating for performance,
and ISO 13253: Ducted air-conditioners and air to
air heat pumps—Testing and rating for
performance.
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also described an innovation developed
by their company that requires only an
additional capacitor, relay, and
proprietary code to reduce standby
mode and off mode power to 0 W, while
adding minimal cost to the furnace.
Given that their new technology would
significantly reduce standby mode and
off mode power consumption, Horizon
Plastics asserted that the standby mode
and off mode requirements for furnaces
should be removed from the subject
standard and moved to a separate
rulemaking. (Horizon Plastics, No. 15 at
pp. 2–3)
DOE agrees with Horizon Plastics that
many furnace models already available
on the market are capable of meeting the
standby mode and off mode standards
promulgated in the DFR. In preparation
for the DFR, DOE tested a number of
furnaces, many of which met the
standby mode and off mode
requirements in the DFR. However, DOE
found that products with lower standby
mode and off mode power consumption
typically have less sophisticated designs
and controls and are often less efficient
when operating in active mode.
Removing certain components, such as
an electronically-commutated motor or
sophisticated control systems (if
equipped) will allow a furnace to
achieve lower standby mode and off
mode energy consumption, but it may
also increase active mode energy
consumption and reduce consumer
utility (in the form of reduced comfort
if certain controls are eliminated),
which is contrary to the purpose of the
DFR. In its analysis of standby mode
and off mode levels, DOE did not
consider levels that would limit
manufacturer design choices when
trying to achieve greater efficiency in
the active mode, or that would reduce
consumer utility. DOE started at the
baseline (i.e., the highest standby mode
and off mode energy consuming) level,
and implemented design options of
which DOE was aware at the time of the
analysis that would not impact the
ability of the furnace to achieve greater
active mode efficiency and would not
reduce consumer utility.
Regarding the new design presented
by Horizon Plastics, DOE is encouraged
by innovations that reduce standby
mode and off mode energy consumption
to 0 W, and hopes that the minimum
standards for standby mode and off
mode consumption promulgated by the
DFR spur further innovation in reducing
standby mode and off mode
consumption. However, DOE notes that
it generally does not consider
proprietary designs in its analysis, as it
may unfairly skew the market to give
one company an advantage over
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competitors. For this reason, DOE
believes that although the technology
presented by Horizon Plastics may be a
viable technology, it cannot be
considered in DOE’s rulemaking
analysis, and does not provide a
reasonable basis for withdrawal of the
standby mode and off mode standards
for residential furnaces.
2. Off Mode Levels for Central Air
Conditioners and Heat Pumps
On August 24, 2011, AHRI,
EarthJustice, and ACEEE submitted
letters to DOE urging DOE to sever the
central air conditioner and heat pumps
off mode standards from the DFR for
several reasons. (AHRI and EarthJustice,
No. 52 at pp. 1–4; ACEEE, No. 53 at p.
1) Specifically, the commenters asserted
that the test procedure had not yet been
finalized, which was in violation of
EPCA section 325(gg)(3), and
consequently, DOE had not done the
necessary background work for
inclusion of these standards in the
direct final rule. (AHRI and EarthJustice,
No. 52 at pp. 2–3) AHRI and
EarthJustice also commented that EPCA
section 336(b)(3) provides DOE with the
authority to partially withdraw a direct
final rule and referenced several direct
final rules from other Federal agencies
that were partially withdrawn. (AHRI
and EarthJustice, No. 52 at pp. 3, 5–10)
In a supporting comment, ACEEE noted
that off mode standards were not
included in the Consensus Agreement
which was submitted to DOE, and that
while consensus among stakeholders
had subsequently been reached for the
furnace standby mode and off mode
standards, no similar agreement had
been reached on the central air
conditioner and heat pump off mode
standards. Consequently, ACEEE
recommended that the off mode
standards for central air conditioners
and heat pumps be severed from the
DFR and withdrawn pending further
rulemaking. (ACEEE, No. 53 at p.1)
Similarly, ACCA argued that this direct
final rule is an unsuitable use of the
direct final rule process, because it
includes standby mode and off mode
standards which were not part of the
submitted Consensus Agreement.
(ACCA, No. 50 at p. 2)
AHRI submitted a supplemental
comment, which reiterated their
concerns about the lack of a finalized
test procedure for central air
conditioners and heat pumps address
standby mode and off mode energy
consumption, and it also wrote that the
off mode standards levels were too
stringent and would eliminate the
majority of products on the market by
effectively outlawing crankcase heaters.
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Crankcase heaters are used to prevent
lubrication oil from mixing with liquid
refrigerant and are responsible for the
bulk of an air conditioner or heat pumps
off mode power consumption. AHRI
believes that without crankcase heaters,
the reliability of units will be decreased
because this mixing will result in
compressors seizing due to a lack of
lubrication, and noted that according to
EPCA, DOE cannot prescribe standards
which would decrease the utility or
performance of a product (42 U.S.C.
6295(o)(2)(B)(i)(IV)). (AHRI, No. 46 at
pp. 5–7)
DOE published a supplementary
notice of proposed rulemaking (SNOPR)
for the residential central air
conditioner and heat pump test
procedure in the Federal Register on
October 24, 2011. 76 FR 65616. DOE
believes that AHRI’s concerns regarding
off mode would be addressed by
adoption after public comment of the
SNOPR. Regarding AHRI’s comments
about crankcase heaters, DOE believes
that its proposed test procedure (as
detailed in the October 2011 SNOPR)
and energy conservation standards will
not disallow the use of crankcase
heaters. DOE notes that there is
potential confusion because a 40-watt
crankcase heater is commonly used in
the industry, and the standard is lower
than 40 watts. However, because the
proposed method for calculating off
mode energy consumption in DOE’s test
procedure is an average of the off mode
energy consumption at multiple
operating conditions, it is possible for a
unit with a 40-watt crankcase heater to
achieve a rating lower than 40 watts if
the crankcase heater is controlled such
that it is not always on when the unit
is in off mode. Testing conducted by
DOE for this SNOPR indicated that there
are products with controlled crankcase
heaters, which can already meet the
proposed standard levels. 76 FR 65616,
65620 (Oct. 24, 2011). Therefore, DOE
believes that the off-mode testing
procedures proposed in the SNOPR
would, if adopted in final, alleviate
AHRI’s concerns about product
reliability stemming from not being able
to find a crankcase heater that allows
manufacturers to meet the standard.
Further, DOE notes that the issues
brought up by AHRI pertain specifically
to the test method rather than to the
standard levels promulgated in the
direct final rule. As a result, these issues
are better suited to be addressed in the
test procedure rulemaking, and DOE is,
in fact, doing so. DOE encourages AHRI,
EarthJustice and ACEEE to submit
written comments on the October 2011
SNOPR so that DOE can consider any
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67049
additional issues with the off mode test
procedure and resolve them as a part of
that rulemaking process. As a result,
DOE is confirming the off mode
standard levels for central air
conditioners and heat pumps that were
originally promulgated in the direct
final rule.
E. Other Comments
1. Adverse Impacts on States
AGL stated that by adopting the
standards set forth in the DFR, States
and local jurisdictions would be
preempted from adopting morestringent restrictions on less-efficient
technology, thereby penalizing
progressive local jurisdictions and
discouraging them from being proactive
and innovative. AGL further stated that
the minimum efficiency for electric
furnaces will preempt States/localities
from restricting less-efficient
technologies, specifically electric
furnaces. (AGL, No. 31 at p. 10)
Although DOE agrees that Federal
energy efficiency standards preempt
State regulations under 42 U.S.C. 6297,
DOE does not believe that the
requirements in the DFR will penalize
States and local authorities. This
situation is typical of all EPCA
rulemakings calling upon DOE to
consider amended energy conservation
standards, not only for residential
furnaces, central air conditioners, and
heat pumps. However, DOE would
remind interested parties that it is
authorized to grant waivers from
preemption for particular State laws or
regulations, if such action is warranted
in accordance with the procedures and
provisions set forth in section 327(d) of
EPCA. (42 U.S.C. 6297(d)) Therefore,
DOE does not consider the inability of
States to adopt regulations for the
products subject to this rulemaking to
be a significant adverse impact that
would necessitate withdrawal of the
direct final rule.
APGA stated that the adverse safety
impacts from requiring condensing
furnaces place a burden on local
governments, because there may be
additional costs imposed upon the cities
(e.g., for training of staff in codes and
enforcements and the costs of additional
inspections) to address the potential
serious harm presented by improper
venting. APGA contends that this
represents an unfunded mandate that
will have an impact on the cities/
communities served by its members.
(APGA, No. 24 at p. 9) In response, DOE
notes that enforcement of building
codes currently falls to local authorities,
which is unchanged by the DFR.
Further, DOE notes that a significant
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mstockstill on DSK4VPTVN1PROD with RULES
portion of furnace installations in the
northern region are already condensing
furnaces, and as such, local inspectors
should already be well trained in the
venting code requirements for those
products and should not require
additional training from local
jurisdictions as a result of the DFR. As
a result, the 90-percent AFUE minimum
standard in the northern region
promulgated by the DFR would not add
any additional burden on local
authorities, beyond what is already
required in terms of enforcing building
codes.
2. Evaluation of Adverse Comments
AGL asserted that DOE has stated that
‘‘adverse’’ impacts will be weighed
against benefits of the DFR in its
evaluation of whether to withdraw the
DFR, and it believes that DOE does not
have the statutory authority to weigh
‘‘adverse’’ impacts against the benefit of
minimum efficiencies because the
statutory language does not grant this
power. AGL contends that the statute
requires DOE to weigh adverse
comments independent of other
outcomes anticipated from the rule.
AGL also argued that adverse comments
may present issues previously
unaddressed by DOE. AGL believes that
weighing new issues against DOE’s
current analysis would be
inappropriate, because the issues may
not have been examined by the DOE.
AGL stated that DOE must evaluate the
‘‘adverse’’ nature of all comments raised
outside of the current analysis, except
where the comments conflict with the
current analysis as published by DOE.
(AGL, No. 31 at p. 3)
In reviewing the statute, DOE notes
that EPCA directs the Secretary to
withdraw the direct final rule if one or
more adverse public comments is
received and, based on the rulemaking
record, the Secretary determines that
such adverse public comments provide
a reasonable basis for withdrawing the
direct final rule. (42 U.S.C.
6295(p)(4)(C)) DOE believes, therefore,
that EPCA provides DOE the discretion
to weigh the significance and credibility
of the adverse comments received.
When evaluating adverse comments,
DOE weighed the significance of each
comment individually and all
comments cumulatively to determine
whether they provided a reasonable
basis for withdrawal of the final rule.
DOE considered each adverse comment
based on its merits and the background
data and information that supported
that comment. DOE notes that this
weighting is done separately from the
weighting of the benefits and burdens
imposed by minimum efficiency
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16:38 Oct 28, 2011
Jkt 226001
standards, which weight the adverse
impacts (i.e., burdens) of standards
against the benefits to consumers in
determining which standard level is
justified, as directed by EPCA (42 U.S.C.
6295(o)(2)(B)(i)) .
3. Time Allowed for Public Input
MUD commented that the rulemaking
process was conducted too quickly to
allow for input from the general public
and the jurisdictions responsible for
furnace installation. (MUD, No. 29 at p.
1)
In response, DOE notes that the
Consensus Agreement was submitted to
DOE on January 15, 2010. DOE
subsequently posted the document on
its Web site 24 and requested comment
on the agreement in its March 2010
rulemaking analysis plan for residential
furnaces 25 and in its March 2010
preliminary analysis for central air
conditioners and heat pumps (75 FR
14368). After considering comments
received in response to the rulemaking
analysis plan for furnaces and
preliminary analysis for central air
conditioners and heat pumps, DOE
performed an in depth analysis of the
Consensus Agreement efficiency levels
and other efficiency levels, and
ultimately proposed the levels
contained in the agreement as Federal
energy conservation standard levels in
the DFR. Then, as directed by EPCA,
DOE accepted comments for 110 days.
(42 U.S.C. 6295(p)(4)(B)) DOE notes that
in the typical standards rulemaking
procedure, the statute requires and DOE
provides a 60-day comment period.
Thus, the 110-day comment period was
longer than usual for a similar
rulemaking. Moreover, at the time of the
close of the 110-day DFR comment
period, the Consensus Agreement had
been publicly available on DOE’s Web
site for more than one and a half years,
and DOE has formally requested
comments on the agreement in three
separate rulemaking notices. Therefore,
DOE believes that there has been ample
opportunity for input from the general
public and other interested parties on
the Consensus Agreement and does not
agree with MUD’s assertion that it was
implemented too quickly to allow for
24 For more information see: https://www1.eere.
energy.gov/buildings/appliance_standards/
residential/pdfs/furnaces_framework_jointstake
holdercomments.pdf
25 The rulemaking analysis plan was published on
DOE’s Web site and announced through the
publication of a notice of public meeting in the
Federal Register. 75 FR 12144 (March 15, 2010).
For more information see: https://www1.eere.
energy.gov/buildings/appliance_standards/
residential/pdfs/furnaces_framework_rap.pdf.
PO 00000
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Sfmt 4700
input from the general public or other
interested parties.
In addition, the National Propane Gas
Association (NPGA) and APGA
requested that DOE extend the comment
period on the DFR. NPGA cited delayed
access to the technical support
document, difficulties obtaining the
software used to run the LCC analysis
and lack of an enforcement plan as
reasons that DOE should extend the
comment period. (NPGA, No. 6 at pp. 1–
2; APGA, No. 24, pp. 14–15).
DOE notes that EPCA provides that
not later than 120 days after issuance of
the DFR, DOE must publish a
determination in the Federal Register
whether the rule should take effect or be
withdrawn based upon significant
adverse comment. (42 U.S.C.
6295(p)(4)(C)) Given the statutory
limitation on the time period provided
in EPCA, DOE could not extend the
comment period to allow interested
parties additional time without
jeopardizing its ability to meet the
requirements of EPCA. As such, DOE
was not able to extend the comment
period on the DFR.
III. Department of Justice Analysis of
Competitive Impacts
EPCA directs DOE to consider any
lessening of competition that is likely to
result from new or amended standards.
It also directs the Attorney General of
the United States (Attorney General) to
determine the impact, if any, of any
lessening of competition likely to result
from a proposed standard and to
transmit such determination to the
Secretary within 60 days of the
publication of a proposed rule, together
with an analysis of the nature and
extent of the impact. (42 U.S.C.
6295(o)(2)(B)(i)(V) and (B)(ii)) DOE
published a NOPR containing energy
conservation standards identical to
those set forth the direct final rule and
transmitted a copy of the direct final
rule and the accompanying TSD to the
Attorney General, requesting that the
U.S. Department of Justice (DOJ)
provide its determination on this issue.
DOE has published DOJ’s comments at
the end of this notice.
DOJ reviewed the amended standards
in the direct final rule and the final TSD
provided by DOE. As a result of its
analysis, DOJ concluded that the
amended standards issued in the direct
final rule are unlikely to have a
significant adverse impact on
competition. DOJ further noted that the
amended standards established in the
direct final rule were the same as
recommended standards submitted in
the Consensus Agreement, which was
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signed by a broad cross-section of
industry participants.
IV. National Environmental Policy Act
Pursuant to the National
Environmental Policy Act and the
requirements of 42 U.S.C.
6295(o)(2)(B)(i)(VI), DOE prepared an
environmental assessment (EA) of the
impacts of the standards for residential
furnaces, central air conditioners, and
heat pumps in the direct final rule,
which was included as chapter 15 of the
direct final rule TSD. DOE found that
the environmental effects associated
with the standards for furnaces and
central air conditioners and heat pumps
were not significant. Therefore, after
consideration of the comments received
on the direct final rule, DOE issued a
Finding of No Significant Impact
(FONSI) pursuant to NEPA, the
regulations of the Council on
Environmental Quality (40 CFR parts
1500–1508), and DOE’s regulations for
compliance with NEPA (10 CFR part
1021). The FONSI is available in the
docket for this rulemaking at https://
www.regulations.gov.
V. Conclusion
In summary, based on the discussion
above, DOE has determined that the
comments received in response to the
direct final rule for amended energy
conservation standards for residential
furnaces, central air conditioners, and
heat pumps do not provide a reasonable
basis for withdrawal of the direct final
rule. As a result, the amended energy
conservation standards set forth in the
direct final rule become effective on
October 25, 2011. Compliance with
these standards is required on May 1,
2013 for non-weatherized gas and oilfired furnaces and mobile home gas
furnaces and on January 1, 2015 for
weatherized gas furnaces and central air
conditioners and heat pumps.
mstockstill on DSK4VPTVN1PROD with RULES
Issued in Washington, DC, on October 24,
2011.
Kathleen B. Hogan,
Deputy Assistant Secretary for Energy
Efficiency, Energy Efficiency and Renewable
Energy.
U.S. Department of Justice
Antitrust Division
Sharis A. Pozen,
Acting Assistant Attorney General,
RFK Main Justice Building,
950 Pennsylvania Avenue, NW.,
Washington, DC 20530–0001,
(202) 514–24011 (202) 616–2645 (Fax)
August 25, 2011
Mr. Eric Fygi, Deputy General Counsel,
Department of Energy, Washington, DC
20585
Dear Deputy General Counsel Fygi: I am
responding to your June 27, 2011 letter
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16:38 Oct 28, 2011
Jkt 226001
seeking the views of the Attorney General
about the potential impact on competition of
proposed energy conservation standards for
residential furnaces, central air conditioners,
and heat pumps. Your request was submitted
under Section 325(o)(2)(B)(i)(V) of the Energy
Policy and Conservation Act, as amended
(ECPA), 42 U.S.C. 6295(o)(2)(B)(i)(5) and 42
U.S.C. 6316(a), which requires the Attorney
General to make a determination of the
impact of any lessening of competition that
is likely to result from the imposition of
proposed energy conservation standards. The
Attorney General’s responsibility for
responding to requests from other
departments about the effect of a program on
competition has been delegated to the
Assistant Attorney General for the Antitrust
Division in 28 CFR 0.40(g).
In conducting its analysis the Antitrust
Division examines whether a proposed
standard may lessen competition, for
example, by substantially limiting consumer
choice, by placing certain manufacturers at
an unjustified competitive disadvantage, or
by inducing avoidable inefficiencies in
production or distribution of particular
products. A lessening of competition could
result in higher prices to consumers, and
perhaps thwart the intent of the revised
standards by inducing substitution to less
efficient products.
We have reviewed the proposed standards
contained in the Direct Final Rule (76 Fed.
Reg. 37408, June 27, 2011). We have also
reviewed supplementary information
submitted to the Attorney General by the
Department of Energy. Based on this review,
our conclusion is that the proposed energy
conservation standards for residential
furnaces, residential central air conditioners
and heat pumps are unlikely to have a
significant adverse impact on competition. In
reaching our conclusion, we note that these
proposed energy standards were adopted
from a Consensus Agreement signed by a
broad cross-section of industry participants.
Sincerely,
Sharis A. Pozen
[FR Doc. 2011–28146 Filed 10–28–11; 8:45 am]
BILLING CODE 6450–01–P
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Part 39
[Docket No. FAA–2011–1041; Directorate
Identifier 2010–SW–109–AD; Amendment
39–16821; AD 2010–26–52]
RIN 2120–AA64
Airworthiness Directives; Bell
Helicopter Textron, Inc. Model 204B,
205A, 205A–1, 205B, 210, 212, 412,
412CF, 412EP Helicopters
Federal Aviation
Administration (FAA), DOT.
ACTION: Final rule; request for
comments.
AGENCY:
PO 00000
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67051
We are publishing in the
Federal Register an amendment which
was sent previously to all known U.S.
owners and operators that supersedes an
existing airworthiness directive (AD) for
the specified Bell Helicopter Textron,
Inc. (BHT) Model helicopters with
certain tail rotor blades (blades). The
superseded AD requires, before further
flight, replacing certain blades with
airworthy blades. This AD retains the
requirements of the superseded AD but
adds new blade part numbers (P/Ns)
and serial numbers (S/Ns) to the
applicability. This AD was prompted by
another incident in which the blade tip
weight separated from a blade during
flight, causing vibration. This incident
led to the determination that additional
blades could be affected, and should be
added to the applicability. We are
issuing this AD to prevent loss of the
blade tip weight, loss of a blade, and
subsequent loss of control of the
helicopter.
SUMMARY:
This AD is effective November
15, 2011 to all persons except those
persons to whom it was made
immediately effective by Emergency AD
2010–26–52, issued on December 10,
2010, which contained the requirements
of this amendment.
We must receive comments on this
AD by December 30, 2011.
ADDRESSES: You may send comments by
any of the following methods:
• Federal eRulemaking Portal: Go to
https://www.regulations.gov. Follow the
instructions for submitting comments.
• Fax: (202) 493–2251.
• Mail: U.S. Department of
Transportation, Docket Operations,
M–30, West Building Ground Floor,
Room W12–140, 1200 New Jersey
Avenue SE., Washington, DC 20590.
• Hand Delivery: Deliver to Mail
address above between 9 a.m. and
5 p.m., Monday through Friday, except
Federal holidays.
For service information identified in
this AD, contact Bell Helicopter
Textron, Inc., P.O. Box 482, Fort Worth,
TX 76101, telephone (817) 280–3391,
fax (817) 280–6466, or at https://
www.bellcustomer.com/files/.
DATES:
Examining the AD Docket
You may examine the AD docket on
the Internet at https://
www.regulations.gov, or in person at the
Docket Operations Office between
9 a.m. and 5 p.m., Monday through
Friday, except Federal holidays. The AD
docket contains this AD, the regulatory
evaluation, any comments received, and
other information. The street address for
the Docket Operations Office
(telephone: 1 (800) 647–5527) is in the
E:\FR\FM\31OCR1.SGM
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]]>Agencies
[Federal Register Volume 76, Number 210 (Monday, October 31, 2011)]
[Rules and Regulations]
[Pages 67037-67051]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 2011-28146]
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�This section of the FEDERAL REGISTER contains regulatory documents
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��Federal Register / Vol. 76, No. 210 / Monday, October 31, 2011 /
Rules and Regulations��
[[Page 67037]]
DEPARTMENT OF ENERGY
10 CFR Part 430
[Docket Number EERE-2011-BT-STD-0011]
RIN 1904-AC06
Energy Conservation Program: Energy Conservation Standards for
Residential Furnaces and Residential Central Air Conditioners and Heat
Pumps
AGENCY: Office of Energy Efficiency and Renewable Energy, Department of
Energy.
ACTION: Notice of effective date and compliance dates for direct final
rule.
-----------------------------------------------------------------------
SUMMARY: The U.S. Department of Energy (DOE) published a direct final
rule to establish amended energy conservation standards for residential
furnaces and residential central air conditioners and heat pumps in the
Federal Register on June 27, 2011. DOE has determined that the adverse
comments received in response to the direct final rule do not provide a
reasonable basis for withdrawing the direct final rule. Therefore, DOE
provides this notice confirming adoption of the energy conservation
standards for residential furnaces and residential central air
conditioners and heat pumps established in the direct final rule and
announcing the effective date of those standards.
DATES: The direct final rule published on June 27, 2011 (76 FR 37408)
became effective on October 25, 2011. Compliance with the standards in
the direct final rule will be required on May 1, 2013 for non-
weatherized furnaces and on January 1, 2015 for weatherized furnaces
and central air conditioners and heat pumps.
ADDRESSES: The docket is available for review at https://www.regulations.gov, including Federal Register notices, framework
documents, public meeting attendee lists and transcripts, comments, and
other supporting documents/materials. All documents in the docket are
listed in the https://www.regulations.gov index. Not all documents
listed in the index may be publicly available, such as information that
is exempt from public disclosure. A link to the docket Web page can be
found at https://www.regulations.gov.
FOR FURTHER INFORMATION CONTACT:
Mr. Mohammed Khan (furnaces) or Mr. Wesley Anderson (central air
conditioners and heat pumps), U.S. Department of Energy, Office of
Energy Efficiency and Renewable Energy, Building Technologies Program,
EE-2J, 1000 Independence Avenue SW., Washington, DC 20585-0121.
Telephone: (202) 586-7892 or (202) 586-7335. E-mail:
Mohammed.Khan@ee.doe.gov or Wes.Anderson@ee.doe.gov.
Mr. Eric Stas or Ms. Jennifer Tiedeman, U.S. Department of Energy,
Office of the General Counsel, GC-71, 1000 Independence Avenue SW.,
Washington, DC 20585-0121. Telephone: (202) 586-9507 or (202) 287-6111.
Email: Eric.Stas@hq.doe.gov or Jennifer.Tiedeman@hq.doe.gov.
For further information on how to submit or review public comments
or view hard copies of the docket, contact Ms. Brenda Edwards at (202)
586-2945 or email: Brenda.Edwards@ee.doe.gov.
SUPPLEMENTARY INFORMATION:
I. Authority and Rulemaking Background
The Energy Policy and Conservation Act of 1975 (EPCA; 42 U.S.C.
6291-6309, as codified), as amended, authorizes DOE to issue a direct
final rule (DFR) establishing an energy conservation standard on
receipt of a statement submitted jointly by interested persons that are
fairly representative of relevant points of view (including
representatives of manufacturers of covered products, States, and
efficiency advocates) as determined by the Secretary of Energy
(Secretary). EPCA further requires that a statement contain
recommendations with respect to an energy conservation standard that
are in accordance with the provisions of 42 U.S.C. 6295(o). A notice of
proposed rulemaking (NOPR) that proposes an identical energy
conservation standard must be published simultaneously with the final
rule, and DOE must provide a public comment period of at least 110 days
on the direct final rule. 42 U.S.C. 6295(p)(4). Not later than 120 days
after issuance of the direct final rule, if one or more adverse
comments or an alternative joint recommendation are received relating
to the direct final rule, the Secretary must determine whether the
comments or alternative recommendation may provide a reasonable basis
for withdrawal under 42 U.S.C. 6295(o) or other applicable law. If the
Secretary makes such a determination, DOE must withdraw the direct
final rule and proceed with the simultaneously published NOPR. DOE must
publish in the Federal Register the reasons why the direct final rule
was withdrawn. Id.
During the rulemaking proceeding to consider amending energy
conservation standards for residential furnaces and residential central
air conditioners and heat pumps, DOE received the ``Agreement on
Legislative and Regulatory Strategy for Amending Federal Energy
Efficiency Standards, Test Procedures, Metrics and Building Code
Provisions for Residential Central Air Conditioners, Heat Pumps,
Weatherized and Non-Weatherized Furnaces and Related Matters'' (the
``Joint Petition'' or ``Consensus Agreement''), a comment submitted by
representatives of the American Heating and Refrigeration Institute
(AHRI), American Council for an Energy-Efficient Economy (ACEEE),
Alliance to Save Energy (ASE), Natural Resources Defense Council
(NRDC), Appliance Standard Awareness Project (ASAP), Northeast Energy
Efficiency Partnerships (NEEP), Northwest Power and Conservation
Council (NPCC), California Energy Commission (CEC), Bard Manufacturing
Company Inc., Carrier Residential and Light Commercial Systems, Goodman
Global Inc., Lennox Residential, Mitsubishi Electric & Electronics USA,
National Comfort Products, Rheem Manufacturing Company, and Trane
Residential (collectively, the ``Joint Petitioners''). This collective
set of comments \1\ recommends specific energy conservation standards
for residential furnaces, central air conditioners, and
[[Page 67038]]
heat pumps that, in the commenters' view, would satisfy the EPCA
requirements at 42 U.S.C. 6295(o). Numerous interested parties,
including signatories of the Consensus Agreement, as well as other
parties, expressed support for DOE adoption of the Consensus Agreement
both at a public hearing and in written comments on the furnaces and
central air conditioners rulemakings.
---------------------------------------------------------------------------
\1\ DOE Docket No. EERE-2011-BT-STD-0011, Comment 16.
---------------------------------------------------------------------------
After careful consideration of the Consensus Agreement, the
Secretary determined that it was submitted by interested persons who
are fairly representative of relevant points of view on this matter.
DOE noted in the direct final rule that Congress provided some guidance
within the statute itself by specifying that representatives of
manufacturers of covered products, States, and efficiency advocates are
relevant parties to any consensus recommendation. (42 U.S.C.
6295(p)(4)(A)) As delineated above, the consensus agreement was signed
and submitted by a broad cross-section of the manufacturers who produce
the subject products, their trade associations, and environmental,
energy efficiency, and consumer advocacy organizations. One State
entity was a party to the Consensus Agreement, and no State expressed
any opposition to the Consensus Agreement from the time of its
submission to DOE through the close of the comment period on the direct
final rule. Moreover, DOE stated in the direct final rule that it does
not interpret the statute as requiring absolute agreement among all
interested parties before DOE may proceed with issuance of a direct
final rule. By explicit language of the statute, the Secretary has
discretion to determine when a joint recommendation for an energy or
water conservation standard has met the requirement for
representativeness (i.e., ``as determined by the Secretary'').
Accordingly, DOE determined that the consensus agreement was made and
submitted by interested persons fairly representative of relevant
points of view.
Pursuant to 42 U.S.C. 6295(p)(4), the Secretary must also determine
whether a jointly submitted recommendation for an energy or water
conservation standard is in accordance with 42 U.S.C. 6295(o) or 42
U.S.C. 6313(a)(6)(B), as applicable. As stated in the direct final
rule, this determination is exactly the type of analysis DOE conducts
whenever it considers potential energy conservation standards pursuant
to EPCA. DOE applies the same principles to any consensus
recommendations it may receive to satisfy its statutory obligation to
ensure that any energy conservation standard that it adopts achieves
the maximum improvement in energy efficiency that is technologically
feasible and economically justified and will result in significant
conservation of energy. Upon review, the Secretary determined that the
Consensus Agreement submitted in the instant rulemaking comports with
the standard-setting criteria set forth under 42 U.S.C. 6295(o).
Accordingly, the Consensus Agreement levels, included as trial standard
level (TSL) 4 for both residential furnaces and residential central air
conditioners and heat pumps, were adopted as the amended standard
levels in the direct final rule.
In sum, as the relevant statutory criteria were satisfied, the
Secretary adopted the amended energy conservation standards for
residential furnaces and residential central air conditioners and heat
pumps set forth in the direct final rule. These standards are set forth
in Table I.1 and Table I.2. The standards apply to all products listed
in Table I.1 and Table I.2 that are manufactured in, or imported into,
the United States on or after May 1, 2013 for non-weatherized gas and
oil-fired furnaces and mobile home furnaces and on or after January 1,
2015 for weatherized gas furnaces and central air conditioners and heat
pumps. These compliance dates were set forth in the direct final rule
published in the Federal Register on June 27, 2011. 76 FR 37408. For a
detailed discussion of DOE's analysis of the benefits and burdens of
the amended standards pursuant to the criteria set forth in EPCA,
please see the direct final rule. 76 FR 37408 (June 27, 2011).
As required by EPCA, DOE also simultaneously published a NOPR
proposing the identical standard levels contained in the direct final
rule. As discussed in this section, DOE considered whether any adverse
comment received during the 110-day comment period following the direct
final rule provided a reasonable basis for withdrawal of the direct
final rule and continuation of this rulemaking under the NOPR. As noted
in the direct final rule, it is the substance, rather than the
quantity, of comments that will ultimately determine whether a direct
final rule will be withdrawn. To this end, DOE weighs the substance of
any adverse comment(s) received against the anticipated benefits of the
Consensus Agreement and the likelihood that further consideration of
the comment(s) would change the results of the rulemaking. DOE notes
that to the extent an adverse comment had been previously raised and
addressed in the rulemaking proceeding, such a submission will not
typically provide a basis for withdrawal of a direct final rule.
Table I.1--Amended Energy Conservation Standards for Furnace, Central Air Conditioner, and Heat Pump Energy
Efficiency
----------------------------------------------------------------------------------------------------------------
Northern region ** standards
Product class National standards (percent) (percent)
----------------------------------------------------------------------------------------------------------------
Residential Furnaces *
----------------------------------------------------------------------------------------------------------------
Non-weatherized gas.................... AFUE = 80.......................... AFUE = 90.
Mobile home gas........................ AFUE = 80.......................... AFUE = 90.
Non-weatherized oil-fired.............. AFUE = 83.......................... AFUE = 83.
Weatherized gas........................ AFUE = 81.......................... AFUE = 81.
Mobile home oil-fired [Dagger][Dagger]. AFUE = 75.......................... AFUE = 75.
Weatherized oil-fired [Dagger][Dagger]. AFUE = 78.......................... AFUE = 78.
Electric[Dagger][Dagger]............... AFUE = 78.......................... AFUE = 78.
----------------------------------------------------------------------------------------------------------------
[[Page 67039]]
----------------------------------------------------------------------------------------------------------------
Southeastern region Southwestern region
Product class National standards [dagger][dagger] [Dagger] standards
----------------------------------------------------------------------------------------------------------------
Central Air Conditioners and Heat Pumps [dagger]
----------------------------------------------------------------------------------------------------------------
Split-system air conditioners...... SEER = 13............. SEER = 14.............. SEER = 14.
EER = 12.2 (for units with
a rated cooling capacity
less than 45,000 Btu/h).
EER = 11.7 (for units with
a rated cooling capacity
equal to or greater than
45,000 Btu/h).
Split-system heat pumps............ SEER = 14............. SEER = 14.............. SEER = 14.
HSPF = 8.2............ HSPF = 8.2............. HSPF = 8.2.
Single-package air conditioners SEER = 14............. SEER = 14.............. SEER = 14.
[Dagger][Dagger].
EER = 11.0.
Single-package heat pumps.......... SEER = 14............. SEER = 14.............. SEER = 14.
HSPF = 8.0............ HSPF = 8.0............. HSPF = 8.0.
Small-duct, high-velocity systems.. SEER = 13............. SEER = 13.............. SEER = 13.
HSPF = 7.7............ HSPF = 7.7............. HSPF = 7.7.
Space-constrained products--air SEER = 12............. SEER = 12.............. SEER = 12.
conditioners [Dagger][Dagger].
Space-constrained products--heat SEER = 12............. SEER = 12.............. SEER = 12.
pumps [Dagger][Dagger].
HSPF = 7.4............ HSPF = 7.4............. HSPF = 7.4.
----------------------------------------------------------------------------------------------------------------
* AFUE is annual fuel utilization efficiency.
** The Northern region for furnaces contains the following States: Alaska, Colorado, Connecticut, Idaho,
Illinois, Indiana, Iowa, Kansas, Maine, Massachusetts, Michigan, Minnesota, Missouri, Montana, Nebraska, New
Hampshire, New Jersey, New York, North Dakota, Ohio, Oregon, Pennsylvania, Rhode Island, South Dakota, Utah,
Vermont, Washington, West Virginia, Wisconsin, and Wyoming.
[dagger] SEER is Seasonal Energy Efficiency Ratio; EER is Energy Efficiency Ratio; HSPF is Heating Seasonal
Performance Factor; and Btu/h is British thermal units per hour.
[dagger][dagger] The Southeastern region for central air conditioners and heat pumps contains the following
States: Alabama, Arkansas, Delaware, Florida, Georgia, Hawaii, Kentucky, Louisiana, Maryland, Mississippi,
North Carolina, Oklahoma, South Carolina, Tennessee, Texas, and Virginia, and the District of Columbia.
[Dagger] The Southwestern region for central air conditioners and heat pumps contains the States of Arizona,
California, Nevada, and New Mexico.
[Dagger][Dagger] DOE is not amending energy conservation standards for these product classes in this rule.
Table I.2--Amended Energy Conservation Standards for Furnace, Central
Air Conditioner, and Heat Pump Standby Mode and Off Mode *
------------------------------------------------------------------------
Standby mode and off mode standard
Product class levels
------------------------------------------------------------------------
Residential Furnaces **
------------------------------------------------------------------------
Non-weatherized gas................. PW,SB = 10 watts.
PW,OFF = 10 watts.
Mobile home gas..................... PW,SB = 10 watts.
PW,OFF = 10 watts.
Non-weatherized oil-fired........... PW,SB = 11 watts.
PW,OFF = 11 watts.
Mobile home oil-fired............... PW,SB = 11 watts.
PW,OFF = 11 watts.
Electric............................ PW,SB = 10 watts.
PW,OFF = 10 watts.
------------------------------------------------------------------------
Off mode standard levels
Product class [dagger][dagger]
------------------------------------------------------------------------
Central Air Conditioners and Heat Pumps [dagger][dagger]
------------------------------------------------------------------------
Split-system air conditioners....... PW,OFF = 30 watts.
Split-system heat pumps............. PW,OFF = 33 watts.
Single-package air conditioners..... PW,OFF = 30 watts.
Single-package heat pumps........... PW,OFF = 33 watts.
Small-duct, high-velocity systems... PW,OFF = 30 watts.
Space-constrained air conditioners.. PW,OFF = 30 watts.
Space-constrained heat pumps........ PW,OFF = 33 watts.
------------------------------------------------------------------------
* PW,SB is standby mode electrical power consumption, and PW,OFF is off
mode electrical power consumption. For furnaces, DOE is proposing to
change the nomenclature for the standby mode and off mode power
consumption metrics for furnaces from those in the furnace and boiler
test procedure final rule published on October 20, 2010. 75 FR 64621.
DOE is renaming the PSB and POFF metrics as PW,SB and PW,OFF,
respectively. However, the substance of these metrics remains
unchanged.
** Standby mode and off mode energy consumption for weatherized gas and
oil-fired furnaces is regulated as a part of single-package air
conditioners and heat pumps.
[dagger] PW,OFF is off mode electrical power consumption for central air
conditioners and heat pumps.
[dagger][dagger] DOE is not adopting a separate standby mode standard
level for central air conditioners and heat pumps, because standby
mode power consumption for these products is already regulated by SEER
and HSPF.
[[Page 67040]]
II. Comments Concerning Withdrawal of the Direct Final Rule
A. General Comments
1. Joint Petition
A number of commenters stated that DOE did not consider the views
of all relevant parties, including appliance installers and energy
suppliers. Some commenters also stated that DOE did not explain its
process for determining whether the Joint Petition was submitted by
relevant parties, including a determination of which parties are
``not'' relevant.
Specifically, UGI Distributors stated that there was not sufficient
participation by interested persons. (UGI, No. 22 at p. 10) The
American Public Gas Association (APGA) contended that the Consensus
Agreement was not based on the most relevant sectors of the industry.
(APGA, No. 24 at pp. 12-13) Metropolitan Utilities District of Omaha
Nebraska (MUD) stated that the Consensus Agreement failed to represent
consumer interests, because the Joint Petitioners (who submitted the
Consensus Agreement) were comprised primarily of appliance
manufacturers and various energy conservation groups, not individuals
who deal with installation and inspection of these appliances on a
daily basis. (MUD, No. 29 at p. 1) AGL Resources (AGL) commented that
the petition did not include all relevant parties as required by the
legislation granting authority for DFRs, and it recommended DOE should
withdraw the DFR in favor of the NOPR process. Specifically, AGL cited
appliance installers and energy suppliers as not being involved, noting
that appliance installers could have provided more complete information
regarding installation costs and that energy suppliers could have
provided important information on consumer impacts. (AGL, No. 31 at p.
3) Heating, Air-conditioning and Refrigeration Distributors
International (HARDI) stated that the Consensus Agreement excludes the
input of U.S. small business owners, who represent two-thirds of the
heating, ventilation, and air-conditioning (HVAC) supply chain and
32,264 HVAC contracting and distribution companies and branches
nationwide. (HARDI, No. 39 at p. 1) The Air Conditioning Contractors of
America (ACCA) stated that the Consensus Agreement represents the view
of a minority of stakeholders, is an unsuitable use of the direct final
rule process, and directly and adversely impacts several stakeholders
not included in the Consensus Agreement. (ACCA, No. 50 at p. 2)
Conversely, the Joint Comment from ASAP, NRDC, ACEEE, ASE, NPCC,
NEEP, the Consumer Federation of America (CFA), and EarthJustice (Joint
Comment) supported DOE's determination of what constitutes an agreement
that is submitted jointly by interested persons that are fairly
representative of relevant points of view. (Joint Comment, No. 47 at p.
2) These stakeholders contend that DOE has properly exercised its
authority to issue a direct final rule under 42 U.S.C. 6295(p)(4)(A).
As explained above in section I, EPCA authorizes DOE to issue a
direct final rule establishing an energy conservation standard on
receipt of a statement that, in relevant part, is submitted jointly by
interested persons that are fairly representative of relevant points of
view (including representatives of manufacturers of covered products,
States, and efficiency advocates) as determined by the Secretary. While
providing some guidance by specifying that representatives of
manufacturers of covered products, States, and efficiency advocates are
relevant parties to any consensus recommendation, EPCA affords DOE
significant discretion in determining whether this requirement has been
met. (42 U.S.C. 6295(p)(4)(A)) DOE notes that EPCA does not require
that ``all'' relevant parties be parties to any Consensus Agreement,
nor does it allow a small number of interested parties to exercise a
veto power over the DFR process. EPCA also does not require DOE to
specify parties that it determines are ``not relevant'' to any
Consensus Agreement.
In the direct final rule, DOE explained how the Consensus Agreement
met the requirement that it be submitted jointly by interested persons
that are fairly representative of relevant points of view. DOE noted
that the Consensus Agreement was signed and submitted by a broad cross-
section of the manufacturers who produce the subject products, their
trade associations, and environmental and energy efficiency
organizations. DOE further noted that one State entity was a party to
the Consensus Agreement, and no State expressed any opposition to it.
States also did not file any adverse comments during the comment period
for the direct final rule.
Moreover, DOE stated in the direct final rule that it does not
interpret the statute as requiring absolute agreement among all
interested parties before DOE may proceed with issuance of a direct
final rule. By explicit language of the statute, the Secretary has
considerable discretion to determine when a joint recommendation for an
energy or water conservation standard has met the requirement for
representativeness (i.e., ``as determined by the Secretary''). DOE
acknowledges that appliance installers and energy suppliers may also be
relevant parties within the meaning of 42 U.S.C. 6295(p)(4), but does
not believe that the existence of other potentially relevant parties
indicates that the Consensus Agreement was not submitted jointly by
interested persons that are fairly representative of relevant points of
view (including representatives of manufacturers of covered products,
States, and efficiency advocates).
For the reasons stated above, DOE affirms its conclusion in the
direct final rule that the Joint Petition satisfies the requirement of
42 U.S.C. 6295(p)(4) that it be a statement submitted jointly by
interested persons that are fairly representative of relevant points of
view (including representatives of manufacturers of covered products,
States, and efficiency advocates) as determined by the Secretary.
2. Comments on Withdrawal of the Direct Final Rule
As explained more fully below, DOE has determined that none of the
comments requesting withdrawal, taken as a whole or individually, may
provide a reasonable basis for the Secretary to withdraw the direct
final rule. In setting efficiency standards such as those for furnaces,
DOE uses a publicly-available, forward-looking model to evaluate the
economic impact of several technically feasible energy efficiency
levels pursuant to the criteria specified in 42 U.S.C. 6295(o). DOE
runs its analysis starting at the most efficient technologically
feasible level through progressively lower efficiency levels until its
finds the most efficient trial standard level (TSL) that is
economically justified. DOE has made its model and the data used in its
model public on its Web site.
The American Gas Association (AGA) \2\ and APGA submitted comments
arguing that DOE used inappropriate data for several parameters in its
life-cycle cost (LCC) model for furnaces, including future natural gas
prices, the
[[Page 67041]]
lifetime of non-weatherized gas furnaces, installation costs, and
future consumer costs for furnaces. DOE explains below why, contrary to
these comments, it used appropriate data for each such parameter.
---------------------------------------------------------------------------
\2\ Philadelphia Gas Works, Nicor, Piedmont, Consolidated Edison
of New York, NW Natural Gas Company, Atmos Energy and Alabama Gas
submitted comments expressing general support for the comments by
the American Gas Association (AGA). (Philadelphia Gas Works, No. 23
at pp. 1-2; Nicor, No. 32 at p. 1; Piedmont, No. 32 at p. 1;
Consolidated Edison of New York, No. 32 at p. 1; NW Natural Gas
Company, No. 32 at p. 1; Atmos Energy, No. 32 at p. 1; Alabama Gas,
No. 32 at p. 1)
---------------------------------------------------------------------------
However, even if the commenters were correct with respect to all
the data issues they raised, that would still not result in an
efficiency standard for furnaces that is different than the one in the
DFR. In response to the comments from AGA and APGA, DOE re-ran its
model using the data and assumptions provided by those organizations in
their comments. DOE's analytical results, which it has made public on
its Web site, showed that the standard set for furnaces in the DFR (TSL
4) still has a positive average LCC savings, even using all the
commenters' data and assumptions. Because the commenters' objections,
even if they were all correct, a scenario DOE does not believe likely,
would not have resulted in a change to the efficiency standard for
furnaces, they could not possibly provide a reasonable basis for
withdrawing the rule.
In their comments, AGA and APGA assert that, taken together, their
data assumptions cause the standard for furnaces in the DFR to have an
average LCC savings that is slightly negative in the northern region of
the United States. However, they have not provided sufficient
information to allow DOE to replicate their results. As indicated
above, DOE has made its spreadsheet model publicly available on its Web
site and no commenter--including AGA and APGA--has questioned the
methodology underlying the spreadsheet model (as opposed to the data
used in the model). Therefore, notwithstanding the results assertedly
reached by AGA and APGA using DOE's model, DOE has concluded that its
model (which remains unchallenged in terms of its methodology) supports
the efficiency standard in the DFR, even using the data and assumptions
provided by the adverse commenters.
Further, as explained in the DFR (76 FR 37524), the consensus
agreement represents the effort of diverse stakeholders representing
widely varied interested parties to negotiate their differences, reach
common ground, and expedite the rulemaking process. Those efforts, and
the benefits they entail, were properly considered by the Secretary
under 42 U.S.C. 6295(o)(2)(B)(i)(VII). DOE has encouraged stakeholders
in all areas to work together to propose consensus agreements that can
lead to DFRs where appropriate. Here, the benefits of the consensus
agreement, reflected in the DFR, include additional energy savings
resulting from accelerated compliance dates for covered products, as
well as an increased likelihood for regulatory compliance and a
decreased risk of litigation. The Secretary is cognizant of those
benefits in analyzing the adverse comments, and in determining whether
any of those comments may provide a reasonable basis for withdrawal of
the DFR under 42 U.S.C. 6295(o).
B. Comments on Standards for Residential Furnaces
1. The Direct Final Rule Would Cause Certain Gas Furnaces in the
Northern Region to Become Unavailable in Violation of the Act
The American Gas Association (AGA) stated that: (1) Establishing a
minimum efficiency standard of 90-percent AFUE for the northern region
would prevent the installation in that region of a Category I \3\ gas
furnace; (2) the regional standard, therefore, would necessarily result
in the unavailability in the northern region of a covered product type
with the performance characteristics of a non-positive vent static
pressure, non-condensing (i.e., Category I) gas furnace; (3) the Act
prohibits DOE from prescribing a standard that is likely to result in
the unavailability in the U.S. in any covered product type (or class)
of performance characteristics (including reliability), features,
sizes, capacities, and volumes that are substantially the same as those
generally available in the United States. (AGA, No. 27 at p. 5)
---------------------------------------------------------------------------
\3\ A Category I vented appliance is an appliance that operates
with a non-positive vent static pressure and with a vent gas
temperature that avoids excessive condensate production in the vent.
(National Fuel Gas Code, NFPA54/ANSI Z223.1, American Gas
Association, 2006)
---------------------------------------------------------------------------
AGA further noted that: (1) In light of the requirements of the gas
codes, a Category I non-positive vent, non-condensing gas furnace
cannot be replaced with a Category IV positive vent, condensing gas
furnace without addressing the venting and condensate disposal issues;
(2) accordingly, the performance features of a Category I gas furnace
(including its ability to be vented through a chimney, common vented
with other gas appliances, and common vented in multi-unit, multistory
housing, as well as its ability to vent without having to address
disposal of flue gas condensate) provide tangible and cost-saving
benefits to consumers justifying separate minimum efficiency standards
for Category I and Category IV gas furnaces. (AGA, No. 27 at p. 6) AGL
made comments similar to those of AGA. (AGL, No. 31 at p. 6)
AGA contends that DOE should withdraw the direct final rule and
proceed with the notice of proposed rulemaking in this proceeding to
consider establishing separate standards for Category I and Category IV
gas furnaces based on their different venting and condensing
characteristics. (AGA, No. 27 at p. 6)
Conversely, AHRI stated that the furnace design dictates what types
of venting systems are acceptable, not the converse, and any suggestion
that a similar natural draft furnace must be provided to replace an old
natural draft furnace in order to maintain a unique utility of the
furnace reverses the relationship between the furnace and the vent
system. AHRI also stated that the function of any furnace is to provide
heat for residences, and DOE is required to address the utility or
unique features of appliances and equipment only. AHRI noted that a new
gas furnace using a different type of venting system can be installed
as a replacement without changing the occupants' comfort level or the
heating ability of the furnace, and that the venting system concerns
are simply a matter of cost and the existence of an appropriate pathway
for the venting system, which are issues that have been analyzed by DOE
and others in the past. (AHRI, No. 46 at pp. 3-4)
In response to these comments, DOE notes that, in evaluating and
establishing energy conservation standards, EPCA directs DOE to divide
covered products into classes based on differences including the type
of energy used, capacity, or other performance-related feature that
justifies a different standard for products having such feature. (42
U.S.C. 6295(q)) In deciding whether a feature justifies a different
standard, DOE must consider factors such as the utility of the feature
to users. Id. In evaluating AGA's suggestion to consider separate
product classes for furnaces using Category I and Category IV venting,
DOE considered the utility to consumers of being able to use one
venting type versus the other. DOE believes that the utility derived by
consumers from furnaces is in the form of the space heating function
that the furnace performs. DOE notes that a furnace requiring Category
I venting and a furnace requiring Category IV venting are both capable
of providing the same heating function to the consumer, and, thus,
provide virtually the same utility with respect to that primary
function. AGA contends that the ability to vent a furnace with Category
I venting provides furnace consumers with a special utility, due to the
cost-saving benefits as compared to having to
[[Page 67042]]
retrofit a venting system to accommodate a Category IV furnace. DOE
does not agree with the characterization of reduced costs associated
with Category I venting in certain installations as a special utility,
but rather, it is an economic impact on consumers that must be
considered in the rulemaking's cost-benefit analysis. Accordingly, DOE
did not establish separate product classes for furnaces utilizing
Category I and Category IV venting systems, but instead considered the
additional costs of Category IV venting in its analyses performed for
the DFR.
2. Causing the Unavailability of Category I Gas Furnaces in the
Northern Region May Have Serious Adverse Consequences for Consumers and
the Environment
AGA stated that: (1) Causing the unavailability of Category I gas
furnaces in the northern region has the potential to increase health
and safety risks due to improper venting; (2) customers faced with
having to replace an existing Category I non-condensing gas furnace
with a Category IV condensing gas furnace may choose to repair the
existing furnace to avoid expensive venting and condensate disposal
modifications associated with the new furnace; (3) delayed replacement
of equipment past their useful life has the potential to increase
energy consumption and environmental impacts. (AGA, No. 27 at p. 6)
AGL, CenterPoint Energy, Metropolitan Utilities District (MUD),
National Fuel Gas Distribution Corporation (NFGD), and Questar Gas made
comments similar to those of AGA. (AGL, No. 31 at p. 5; CenterPoint
Energy, No. 33 at p. 2; MUD, No. 29 at p. 1; NFGD, No. 28 at p. 1;
Questar Gas, No. 48 at p. 1)
On the other hand, AHRI stated that the concerns about safety when
establishing a standard at 90-percent annual fuel utilization
efficiency (AFUE) are no different that those already present in
situations where consumers do not repair faulty equipment or perform
unsafe home repairs. (AHRI, No. 46 at p. 4) National Grid stated that
the proposed standards would help their customers achieve their heating
needs while using less energy and saving money. (National Grid, No. 30
at p. 1)
In response, proper venting of a condensing furnace, which is
guided by the National Fuel Gas Code and, in many cases, by local
building codes, is designed to alleviate health and safety risks. DOE
notes that contractors currently have a legal responsibility to perform
repairs according to the requirements of applicable codes. Problems
associated with contractors not following proper procedures could occur
in the case of replacing a gas furnace with a non-condensing furnace as
well.
Failure of the heat exchanger or combustion system is the event
that is most likely to create a need for replacement. DOE believes that
consumers faced with a furnace replacement situation would be unlikely
to opt for repair because of the high cost of replacing these
components, along with the possibility that further expensive repairs
might be needed in the near future. Therefore, DOE believes that
delayed replacement, and the associated environmental impacts, is
unlikely.
AGA stated that customers that replace a Category I gas furnace
with a Category IV gas furnace may orphan a common-vented gas water
heater. It could lead to improperly vented water heaters, which may
pose serious health and safety risks. (AGA, No. 27 at p. 7) AGL,
CenterPoint Energy and MUD made comments similar to those of AGA. (AGL,
No. 31 at pp. 6-7; CenterPoint Energy, No. 33 at p. 5; MUD, No. 29 at
p. 1)
AHRI stated that: (1) In the past ten years, nearly 10 million
condensing furnaces have been sold in the U.S., of which about 7.5
million units were replacement installations; (2) some of those must
have resulted in ``orphaned'' gas water heaters; (3) there is no
evidence from the field over that time that consumers are incurring a
higher safety risk because they chose to not address the water heater's
venting system when the new condensing furnace was installed. (AHRI,
No. 46 at p. 4)
In response, proper venting of an orphaned water heater would
alleviate the risks mentioned by the commenters. DOE again notes that
proper venting of an orphaned water heater is guided by the National
Fuel Gas Code and, in many cases, by local building codes. The same
points made above about contractors apply in this case as well. DOE
also notes that the above comment by AHRI suggests that serious health
and safety risks are unlikely and that the service industry already has
in place procedures for identifying and rendering unsafe equipment
inoperable (red tag) to safeguard the consumer. In addition, DOE
believes that through training and experience installing condensing
furnaces, installers will become increasingly aware and skilled in the
treatment of orphaned water heaters.
AGA argued that the unavailability of Category I, non-condensing
gas furnaces could lead customers to make less-efficient appliance
choices. Specifically, AGA stated that fuel switching or different
initial fuel choice could occur where customers select: (1) Electric
furnaces instead of gas furnaces; (2) electric heat pumps instead of
gas furnaces, especially where central air conditioning is already
installed; (3) electric water heaters instead of gas water heaters; or
(4) electric heat pumps and electric water heaters instead of gas
furnaces and gas water heaters. AGA stated that by installing electric
appliances rather than natural gas appliances, consumers are likely to
pay more in annual operating costs while contributing to increased
total energy consumption and environmental emissions when measured on a
source or full-fuel-cycle basis. (AGA, No. 27 at p. 7)
For the direct final rule, DOE did not explicitly quantify the
potential for fuel switching from gas furnaces to electric heating
equipment, based upon the following reasoning. DOE reviewed the 2005
Residential Energy Consumption Survey (RECS) \4\ to assess the type of
space-heating system utilized by consumers as a function of house
heating load. Gas furnaces are primarily utilized in households with
high heating loads, while electric space heating systems are almost
exclusively used in households with low heating loads. Generally, this
is because the operating costs of electric space heating systems are
relatively high due to the price of electricity, so using an electric
system in a cold climate is significantly more expensive than using a
gas furnace. Based on the above finding, DOE inferred that few
consumers in the northern region would be likely to switch to electric
space heating systems as a result of the amended standard for gas
furnaces.
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\4\ U.S. Department of Energy--Energy Information
Administration, Residential Energy Consumption Survey: 2005 Public
Use Data Files, 2008. https://www.eia.doe.gov/emeu/recs/recspubuse05/pubuse05.html.
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In addition, replacing a gas furnace with electric space heating
incurs substantial costs, because of the complexity involved in
modifying the installation. As described in appendix 9-B of the DFR
technical support document (TSD),\5\ for a household with a gas furnace
to switch to electric space heating, a separate circuit up to 120-amps
would be needed, depending on the house heating design requirements.
[[Page 67043]]
The cost to install such a circuit would vary from approximately $293
to $608, and some installations would require a new panel board to
serve this higher amp circuit, at a cost estimated at $985 to
$2,625.\6\ Given the initial costs involved in replacing a gas furnace
with electric space heating, combined with the much higher operating
costs of an electric heating system, DOE believes that the approach
used for the DFR is reasonable.
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\5\ See: https://www1.eere.energy.gov/buildings/appliance_standards/residential/residential_furnaces_central_ac_hp_direct_final_rule_tsd.html.
\6\ Costs estimated using 2010 RS Means Residential Cost Data.
(RS Means Company Inc., RS Means Residential Cost Data. 29th Annual
Edition ed. 2010: Kingston, MA).
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With regard to initial fuel choice in new homes, DOE found fuel
switching not to apply because the amended standard would not
significantly change the situation currently faced by builders. On
average, there is no total installed price differential between an 80-
percent AFUE gas furnace and a 90-percent AFUE gas furnace, so DOE
reasoned that builders are unlikely to alter their current behavior on
the basis of amended energy conservation standards.
AGA stated that: (1) Replacing a non-condensing gas furnace with a
condensing gas furnace may be infeasible for some homes where side-wall
venting is not an option (e.g., in row houses, historic homes, or
multi-story housing complexes), may be cost-prohibitive in other homes,
may lead to orphaned water heaters, and, in all cases, would increase
installation costs and require trained installers to ensure proper
venting of all combustion appliances.; (2) DOE's analysis in this
proceeding significantly underestimates the costs associated with
installation of condensing gas furnaces that consumers would actually
incur, both as a result of underestimating specific cost items and of
failing to include specific cost items. (AGA, No. 27 at p. 7) MUD made
a similar comment. (MUD, No. 29 at pp. 1-2) Questar Gas also stated
that with many older homes and multi-family units, the venting
modifications and condensate disposal requirements would be cost-
prohibitive and, in some cases, impossible. (Questar Gas, No. 48 at p.
1)
DOE acknowledges that there may be increased technical complexity
associated with replacing a non-condensing gas furnace with a
condensing gas furnace, but DOE disagrees with AGA's contention that
replacing a non-condensing gas furnace with a condensing gas furnace
may be infeasible for some homes where side-wall venting is not an
option. Many condensing furnaces are vented using vertical vents, which
provides an additional option to address cases where side-wall access
in not available. Moreover, AGA has not demonstrated that trained
installers are unavailable in the marketplace to handle installations
under the amended standards at the time of compliance. Condensing
furnaces have been available for more than 20 years, and in the north
condensing furnaces represent 68 percent of the market. The large scale
of installations demonstrates the availability of trained installers to
handle installations under the amended standards.
Regarding AGA's second point, DOE believes that it has included all
relevant cost items. As further described below in section II.B.7,
DOE's estimates of specific cost items are similar to those provided by
AGA in several instances. Where they are lower, DOE believes that the
available evidence (discussed below) supports the costs used by DOE.
3. DOE's Regional Standard Harms Consumers
AGA stated that: (1) DOE's analysis shows that the 90-percent AFUE
standard for the northern region would impose a net cost on 10 percent
of consumers, have no impact on 71.4 percent of consumers, and have a
net benefit for 18.6 percent of consumers; (2) the fact that a
significant percentage of customers will experience a net cost reflects
the substantial costs associated with replacing a Category I non-
condensing gas furnace with a Category IV condensing gas furnace; (3)
DOE has failed to explain why the fact that some consumers will see a
net benefit justifies imposing net costs on other consumers. (AGA, No.
27 at p. 10)
In selecting the standards in the DFR, DOE needed to determine
whether the benefits of the standard exceed its burdens to the greatest
extent practicable, in light of the seven statutory factors provided by
EPCA. (42 U.S.C. 6295(o)(2)(B)(i)) Impacts on consumers are one of
those factors. Under the amended standard for non-weatherized gas
furnaces, nearly twice as many consumers would have a net benefit as
would have a net cost. Further, the standard would provide average LCC
savings of $155 and a median payback period of 10.1 years. DOE believes
that on balance, the consumer impacts of the amended energy
conservation standard qualify as positive impacts within the context
DOE has used in past standards rulemakings.
4. DOE's Analysis of Natural Gas Prices Is Inadequate
AGA and AGL stated that the direct final rule did not consider the
impact that the regional standard would have on natural gas prices.
(AGA, No. 27 at p. 11; AGL, No. 31 at 5) DOE did consider the impact of
the chosen standards on natural gas prices, as described in section
IV.G.6 of the DFR. As described in chapter 14 of the DFR TSD, the
projected impact on natural gas prices is very small (0.14 to 0.21
percent). Because the impact is so small, DOE did not use a separate
price forecast for the selected TSL.
AGA stated that: (1) DOE has not used the most recent version of
the Energy Information Administration's (EIA) Annual Energy Outlook
(i.e., AEO 2011) in support of the direct rule; (2) DOE has not
explained why it could not have revised its analysis based on the most
recent data; (3) EIA's AEO 2011 forecast of residential natural gas
prices through 2030 is substantially reduced from the 2010 forecast;
(4) EIA's price forecast has been trending downward over the last
several years; (5) DOE's use of the AEO 2010 Reference Case in
analyzing life-cycle-cost savings of gas furnaces overstates potential
cost savings. (AGA, No. 27 at p. 11) APGA and MUD also objected to
DOE's use of the AEO 2010 rather than the AEO 2011 projections. (APGA,
No 24 at p. 2; MUD, No. 29 at p. 2)
In contrast, the joint comment from ASAP, NRDC, ACEEE, CFA, ASE,
NPCC, NEEP, and EJ (Joint Comment) stated that the furnace standards
are cost-effective, even if AEO 2011 price trends are used in the LCC
analysis. The Joint Comment noted that additional analysis published by
DOE in response to a request from American Public Gas Association
(APGA) showed average positive LCC savings for both replacement and new
construction installations even if lower natural gas prices are used in
the analysis. (Joint Comment, No. 47 at p. 4-5)
In response, DOE notes that the Department uses the latest
available version of AEO that is possible under its rulemaking
schedule. The AEO 2011 was not available at the time the original DFR
analysis was conducted. However, in response to comments on the DFR,
DOE evaluated the impact of using the AEO 2011 price forecast on the
LCC results. In this case, the average LCC benefit decreases from $155
(using the AEO 2010 forecast) to $127.
AGA contends that: (1) DOE should use a marginal price analysis
when evaluating the impact of natural gas prices on the life-cycle-cost
savings
[[Page 67044]]
associated with conservation standards; (2) a marginal price analysis
reflects the incremental or decremental gas costs most closely
associated with changes in the amount of gas consumed when comparing
appliances of different efficiencies; (3) DOE uses marginal residential
and commercial electricity prices in its life-cycle-cost analysis; (4)
technical analysis by the Gas Technology Institute (GTI) includes a
marginal price analysis for the 90-percent AFUE regional standard, by
using citygate prices \7\ as a proxy for marginal price and reducing
the residential gas price to reflect a removal of a portion of fixed
costs. AGA stated that: (1) The results of GTI's analysis show that the
life-cycle-cost savings of replacing a non-condensing gas furnace with
a condensing gas furnace are negative in the northern region using
citygate prices as a proxy for marginal price, based on AEO 2011
forecasts of natural gas prices; (2) under the alternative method of
removing fixed costs as a proxy for marginal prices, the analysis
similarly shows that the life-cycle-cost savings of installations of
90-percent AFUE condensing gas furnaces in the replacement market in
the northern region are negative or only barely positive. (AGA, No. 27
at p. 13)
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\7\ The ``city gate'' is generally the point where natural gas
is transferred from an interstate or intrastate pipeline to a local
natural gas utility. The ``city gate price'' is the sales price of
the natural gas at this point; the price reflects the wholesale/
wellhead price, as well as the cost of transporting the natural gas
by pipeline to the citygate.
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In contrast, the Joint Comment stated that DOE's approach for
developing natural gas prices, which incorporates regional and seasonal
variations, is appropriate and that the prices DOE derived reflect the
prices faced by furnace users. (Joint Comment, No. 47 at pp. 4-5)
In response, DOE believes that average natural gas prices are
suitable for evaluating the impacts of furnace standards. DOE also used
average natural gas prices in the 2010 final rule for energy
conservation standards for residential water heaters, direct heating
equipment, and pool heaters. 75 FR 20112, 20158 (April 16, 2010).
Although marginal energy prices are in theory preferable when
evaluating the life-cycle-cost savings associated with standards, past
analysis found that marginal natural gas prices were only 4.4 percent
lower than average prices in the winter, when furnaces are used.\8\ At
the time of the DFR analyses, DOE was unable to obtain marginal gas
prices for the following reasons. The RECS 2005 billing data that allow
estimation of marginal prices were not available at that time due to
EIA's concerns over maintaining confidentiality of the survey
respondents. In the alternative, DOE investigated development of
marginal prices from gas utility tariffs, but found that, in general,
gas tariffs include provisions for modifying consumer prices on a
monthly basis to account for changes in commodity price. Therefore, the
tariffs themselves do not provide sufficient information to determine
the consumer price.
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\8\ Chaitkin, S., J. McMahon, C. Dunham-Whitehead, R. van
Buskirk and J. Lutz. 2000. Estimating Marginal Residential Energy
Prices in the Analysis of Proposed Appliance Energy Efficiency
Standards. Conference Paper, Proceedings of the ACEEE Summer Study
on Energy Efficiency in Buildings.
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In response to comments on the DFR, DOE estimated marginal natural
gas prices using newly-available RECS 2005 billing data. Using this
data in DOE's model, the average LCC benefits decrease from $155 (using
average energy prices) to $128 (using marginal energy prices).
5. DOE Has Not Justified Its Use of Experience Curve Price Effects
AGA stated that: (1) DOE's use of experience curves to support the
direct final rule is premature; and (2) DOE has not yet issued a final
rule or policy regarding the use of experience curve or learning curve
analyses or responded to the comments submitted in that proceeding.
(AGA, No. 27 at p. 14)
To clarify, on February 22, 2011, DOE published a Notice of Data
Availability (NODA, 76 FR 9696) in the Federal Register stating that
DOE may consider changes to how it addresses equipment price trends, as
part of DOE's ongoing efforts to keep improving its regulatory
analyses. DOE responded to comments on the NODA and outlined its
refined policy regarding the use of experience curves in the direct
final rule in this proceeding and several other rulemakings mentioned
below. In the DFR, DOE presented a range of estimates for product price
trends, including trends derived using the experience curve approach.
AGA and APGA stated that DOE's experience curve analysis in the
direct final rule is unexplained and unjustified. (AGA, No. 27 at p.
14; APGA, No. 24 at p. 3) AGA stated that DOE has not adequately shown
that, based on historical price data, the price trend for Category IV
condensing gas furnaces would continue to trend downward over time at
the rate that DOE has assumed. Nor is there any justification,
according to those commenters, as to why such curves should be so much
greater for gas equipment than for electric equipment. (AGA, No. 27 at
pp. 14-15) Laclede Gas also stated that the experience rates used by
DOE were overstated. (Laclede Gas, No. 27 at pp. 2-3)
On the other hand, the Joint Comment supported DOE's use of
learning rates in the analysis. (Joint Comment, No. 47 at p. 3) It
stated that the incorporation of learning rates in this rulemaking is
consistent with recent DOE final rules on refrigerators, clothes
dryers, and room air conditioners, where DOE also applied learning
rates. 76 FR 57516, 57548-50 (Sept. 15, 2011); 76 FR 52852-52854 (Aug.
24, 2011).
In response, DOE's derivation of price trends for central air
conditioners, heat pumps, and furnaces is described in detail in
appendix 8-J of the DFR TSD. The essential justification for using the
experience curve approach is that it yields a statistically robust
method for analyzing the long-term declining real price trend, based on
Producer Price Indexes (PPI), observed for central air conditioners and
furnaces. There exists an extensive economic literature on learning and
experience curves, based on robust observations spanning many
decades.\9\ The concept was pioneered for the manufacturing sector, and
it has since been applied to a diverse set of products and
services.\10\ Learning and experience curves are now regularly
incorporated into economic modeling, including in the National Energy
Modeling System (NEMS). Broader discussion of the reasons why DOE
believes use of the experience curve approach is reasonable is provided
in the final rule for refrigerators, refrigerator-freezers, and
freezers. 76 FR 57516, 57548-50 (Sept. 15, 2011).
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\9\ A draft paper, ``Using the Experience Curve Approach for
Appliance Price Forecasting,'' posted on the DOE Web site at https://www.eere.energy.gov/buildings/appliance_standards, summarizes the
data and literature currently available to DOE that is relevant to
price forecasts for selected appliances and equipment.
\10\ Weiss, M., Junginger, M., Patel, M.K., Blok, K., 2010a. ``A
review of experience curve analyses for energy demand
technologies.'' Technological Forecasting and Social Change 77, 411-
428.
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DOE did not have historical price data specific to condensing gas
furnaces. However, the growing share of condensing furnaces over the
past two decades (from approximately 23 percent in 1990 to
approximately 50 percent in 2010) \11\ is reflected in the PPI series
that DOE used to derive an experience rate for furnaces.
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\11\ Gas Appliance Manufacturers Association (GAMA). Historical
Shipment Data (1987-2003), provided to DOE April 10, 2005. AHRI.
Historical Shipment Data (2004-2009), provided to DOE June 20, 2010.
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[[Page 67045]]
For warm-air furnaces, the medium estimated learning rate (defined
as the fractional reduction in price expected from each doubling of
cumulative production) is 30.6 percent. For unitary air conditioners,
the medium estimated learning rate is 18.1 percent. The higher rate for
furnaces results from the steeper decline in the inflation-adjusted
historic price index for warm air furnaces.\12\
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\12\ See appendix 8-J of the DFR TSD.
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In response to comments on the DFR, DOE evaluated the impact of not
using the learning rate on the LCC results. Using this input in DOE's
model, the average LCC benefits decrease from $155 (using medium
estimated learning rates) to $148 (not using the learning rates).
6. DOE's Estimate of Expected Furnace Lifetime Is Unsupported
AGA stated that: (1) DOE's estimate of a 23.68 year lifetime for a
gas furnace is contradicted by other DOE and manufacturer estimates;
(2) in its latest DOE Multi-Year Program Plan, updated in October 2010,
DOE estimated that the lifetime of a non-weatherized gas furnaces is 16
years; (3) according to GTI's recent technical analysis, the 16-year
useful life estimate is consistent with other manufacturer estimates of
useful life; (4) GTI's analysis shows that using a 16-year useful life
estimate substantially reduces the life-cycle-cost savings for the 90-
percent AFUE gas furnace in the northern region. (AGA, No. 27 at pp.
15-16) Laclede Gas Company made a similar comment. (Laclede, No. 27 at
p. 4)
The Joint Comment stated that the fixed 16-year lifetime was
unreasonable for non-weatherized gas furnaces. It noted that DOE used a
distribution of lifetimes to reflect expected failure rates in the
field and that DOE derived the average lifetime of 23.7 years for non-
weatherized gas furnaces from a combination of sources. (Joint Comment,
No. 47 at pp. 4-5)
In response, the value in DOE's 2010 Multi-Year Program Plan \13\
was an estimate from the published literature, rather than the result
of empirical analysis. DOE's DFR methodology utilized a more rigorous
product lifetime analysis, including historical data on appliance
shipments, total appliance stock, and the fraction of surviving
appliances to estimate the mean life and mortality shape factor using
the best-fitting Weibull survival function.\14\ Changing the average
lifetime to 16 years results in projected shipments that are
approximately 30 percent to 40 percent greater than the forecast in the
DFR. In this case, the NIA model's `backcast' diverges significantly
from historical shipments. That is, a 16-year average lifetime is
inconsistent with historical data on furnace shipments. Consequently,
DOE has confirmed that the DFR's estimated average lifetime of 23.7
years for non-weatherized gas furnaces remains the best estimate of
that value. However, in response to comments on the DFR, DOE evaluated
the impact of using the average fixed 16-year lifetime on the LCC
results. Using that input in DOE's model, the average LCC benefits
decrease from $155 (using DOE's lifetime methodology) to $72 (using a
16-year lifetime).
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\13\ U.S. Department of Energy Efficiency and Renewable Energy
Building Technologies Program. Multi-Year Program Plan, Building
Regulatory Programs: 2010-2015 (Oct. 2010). (https://apps1.eere.energy.gov/buildings/publications/pdfs/corporate/regulatory_programs_mypp.pdf)
\14\ DOE's lifetime methodology is described in: Lutz, J. A.
Hopkins, V. Letschert, V. Franco, and A. Sturges. ``Using national
survey data to estimate lifetimes of residential appliances''
published in HVAC&R Research (Volume 17, Issue 5, 2011). (URL:
https://www.tandfonline.com/doi/abs/10.1080/10789669.2011.558166)
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7. DOE Has Not Justified Its Assumptions Regarding Installation Costs
AGA stated that: (1) DOE has not adequately supported the specific
installation cost adders and distribution of occurrences that it has
used; (2)
