Mandatory Reporting of Greenhouse Gases: Petroleum and Natural Gas Systems, 74458-74515 [2010-28655]

Agencies

• ENVIRONMENTAL PROTECTION AGENCY

[Federal Register Volume 75, Number 229 (Tuesday, November 30, 2010)]
[Rules and Regulations]
[Pages 74458-74515]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 2010-28655]



[[Page 74457]]

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Part III





Environmental Protection Agency





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40 CFR Part 98



Mandatory Reporting of Greenhouse Gases: Petroleum and Natural Gas 
Systems; Final Rule

Federal Register / Vol. 75 , No. 229 / Tuesday, November 30, 2010 / 
Rules and Regulations

[[Page 74458]]


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ENVIRONMENTAL PROTECTION AGENCY

40 CFR Part 98

[EPA-HQ-OAR-2009-0923; FRL-9226-1]
RIN 2060-AP99


Mandatory Reporting of Greenhouse Gases: Petroleum and Natural 
Gas Systems

AGENCY: Environmental Protection Agency (EPA).

ACTION: Final rule.

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SUMMARY: EPA is promulgating a regulation to require monitoring and 
reporting of greenhouse gas emissions from petroleum and natural gas 
systems. This action adds this source category to the list of source 
categories already required to report greenhouse gas emissions. This 
action applies to sources with carbon dioxide equivalent emissions 
above certain threshold levels as described in this regulation. This 
action does not require control of greenhouse gases.

DATES: The final rule is effective on December 30, 2010. The 
incorporation by reference of certain publications listed in the rule 
is approved by the Director of the Federal Register as of December 30, 
2010.

ADDRESSES: EPA established a single docket under Docket ID No. EPA-HQ-
OAR-2009-0923 for this action. All documents in the docket are listed 
on the https://www.regulations.gov Web site. Although listed in the 
index, some information is not publicly available, e.g., confidential 
business information (CBI) or other information whose disclosure is 
restricted by statute. Certain other material, such as copyrighted 
material, is not placed on the Internet and will be publicly available 
only in hard copy form. Publicly available docket materials are 
available either electronically through https://www.regulations.gov or 
in hard copy at EPA's Docket Center, Public Reading Room, EPA West 
Building, Room 3334, 1301 Constitution Avenue, NW., Washington, DC 
20004. This Docket Facility is open from 8:30 a.m. to 4:30 p.m., Monday 
through Friday, excluding legal holidays. The telephone number for the 
Public Reading Room is (202) 566-1744, and the telephone number for the 
Air Docket is (202) 566-1741.

FOR FURTHER INFORMATION CONTACT: Carole Cook, Climate Change Division, 
Office of Atmospheric Programs (MC-6207J), Environmental Protection 
Agency, 1200 Pennsylvania Ave., NW., Washington, DC 20460; telephone 
number: (202) 343-9263; fax number: (202) 343-2342; e-mail address: 
GHGReportingRule@epa.gov. For technical information and implementation 
materials, please go to the Web site https://www.epa.gov/climatechange/emissions/ghgrulemaking.html. To submit a question, select Rule Help 
Center, followed by Contact Us.

SUPPLEMENTARY INFORMATION: 
    Regulated Entities. The Administrator determined that this action 
is subject to the provisions of Clean Air Act (CAA) section 307(d). See 
CAA section 307(d)(1)(V) (the provisions of section 307(d) apply to 
``such other actions as the Administrator may determine''). This final 
rule affects owners or operators of petroleum and natural gas systems. 
Regulated categories and entities may include those listed in Table 1 
of this preamble:

           Table 1--Examples of Affected Entities by Category
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                                                  Examples of affected
         Source category              NAICS            facilities
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Petroleum and Natural Gas Systems       486210  Pipeline transportation
                                                 of natural gas.
                                        221210  Natural gas distribution
                                                 facilities.
                                           211  Extractors of crude
                                                 petroleum and natural
                                                 gas.
                                        211112  Natural gas liquid
                                                 extraction facilities.
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    Table 1 of this preamble is not intended to be exhaustive, but 
rather provides a guide for readers regarding facilities likely to be 
affected by this action. Although Table 1 of this preamble lists the 
types of facilities of which EPA is aware that could be potentially 
affected by this action, other types of facilities not listed in the 
table could also be subject to reporting requirements. To determine 
whether you are affected by this action, you should carefully examine 
the applicability criteria found in 40 CFR part 98, subpart A as 
amended by this action. If you have questions regarding the 
applicability of this action to a particular facility, consult the 
person listed in the preceding FOR FURTHER INFORMATION CONTACT section.
    Many facilities that are affected by the final rule have GHG 
emissions from multiple source categories listed in 40 CFR part 98. 
Table 2 of this preamble has been developed as a guide to help 
potential reporters in the petroleum and natural gas industry affected 
by this action identify other source categories (by subpart) that they 
may need to: (1) Consider in their facility applicability 
determination, and (2) include in their reporting. Table 2 of this 
preamble identifies the subparts that are likely to be relevant to 
sources with petroleum and natural gas systems. The table should only 
be seen as a guide. Additional subparts in 40 CFR part 98 may be 
relevant for a given reporter. Similarly, not all listed subparts are 
relevant for all reporters.

            Table 2--Source Categories and Relevant Subparts
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                                       Other subparts recommended for
          Source category             review to determine applicability
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Petroleum and Natural Gas Systems.  40 CFR part 98, subpart C: General
                                     Stationary Fuel Combustion Sources.
                                    40 CFR part 98, subpart Y: Petroleum
                                     Refineries.
                                    40 CFR part 98, subpart MM:
                                     Suppliers of Petroleum Products.
                                    40 CFR part 98, subpart NN:
                                     Suppliers of Natural Gas and
                                     Natural Gas Liquids.
                                    40 CFR part 98, subpart PP:
                                     Suppliers of Carbon Dioxide
                                    40 CFR part 98, subpart RR:
                                     Injection and Geologic
                                     Sequestration of Carbon Dioxide
                                     (proposed).
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[[Page 74459]]

    What is the effective date? The final rule is effective on December 
30, 2010. Section 553(d) of the Administrative Procedure Act (APA), 5 
U.S.C. Chapter 5, generally provides that rules may not take effect 
earlier than 30 days after they are published in the Federal Register. 
EPA is issuing this final rule under section 307(d)(1) of the Clean Air 
Act, which states: ``The provisions of section 553 through 557 * * * of 
Title 5 shall not, except as expressly provided in this section, apply 
to actions to which this subsection applies.'' Thus, section 553(d) of 
the APA does not apply to this rule. EPA is nevertheless acting 
consistently with the purposes underlying APA section 553(d) in making 
this rule effective on December 30, 2010. Section 5 U.S.C. 553(d)(3) 
allows an effective date less than 30 days after publication ``as 
otherwise provided by the agency for good cause found and published 
with the rule.'' As explained below, EPA finds that there is good cause 
for this rule to become effective on or before December 31, 2010, even 
if this results in an effective date fewer than 30 days from date of 
publication in the Federal Register.
    While this action is being signed prior to December 1, 2010, there 
is likely to be a significant delay in the publication of this rule as 
it contains complex diagrams, equations, and charts, and is relatively 
long in length. As an example, EPA signed a shorter technical 
amendments package related to the same underlying reporting rule on 
October 7, 2010, and it was not published until October 28, 2010, 75 FR 
66434, three weeks later.
    The purpose of the 30-day waiting period prescribed in 5 U.S.C. 
553(d) is to give affected parties a reasonable time to adjust their 
behavior and prepare before the final rule takes effect. Where, as 
here, the final rule will be signed and made available on the EPA Web 
site more than 30 days before the effective date, but where the 
publication is likely to be delayed due to the complexity and length of 
the rule, that purpose is still met. Moreover, for specified emission 
sources for certain industry segments, EPA has made available the 
optional use of best available monitoring methods (BAMM) during the 
2011 calendar year. For these circumstances, facilities covered by this 
rule may use BAMM for any parameter for which it is not reasonably 
feasible to acquire, install, or operate a required piece of monitoring 
equipment in a facility, or to procure measurement services from 
necessary providers. This will provide facilities a substantial 
additional period to adjust their behavior to the requirements of the 
final rule. Accordingly, we find good cause exists to make this rule 
effective on or before December 31, 2010, consistent with the purposes 
of 5 U.S.C. 553(d)(3).\1\
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    \1\ We recognize that this rule could be published at least 30 
days before December 31, 2010, which would negate the need for this 
good cause finding, and we plan to request expedited publication of 
this rule in order to decrease the likelihood of a printing delay. 
However, as we cannot know the date of publication in advance of 
signing this rule, we are proceeding with this good cause finding 
for an effective date on or before December 31, 2010.
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Judicial Review

    Under CAA section 307(b)(1), judicial review of this final rule is 
available only by filing a petition for review in the U.S. Court of 
Appeals for the District of Columbia Circuit by January 31, 2011. Under 
CAA section 307(d)(7)(B), only an objection to this final rule that was 
raised with reasonable specificity during the period for public comment 
can be raised during judicial review. This section also provides a 
mechanism for us to convene a proceeding for reconsideration, ``[i]f 
the person raising an objection can demonstrate to EPA that it was 
impracticable to raise such objection within [the period for public 
comment] or if the grounds for such objection arose after the period 
for public comment (but within the time specified for judicial review) 
and if such objection is of central relevance to the outcome of this 
rule.'' Any person seeking to make such a demonstration to us should 
submit a Petition for Reconsideration to the Office of the 
Administrator, Environmental Protection Agency, Room 3000, Ariel Rios 
Building, 1200 Pennsylvania Ave., NW., Washington, DC 20004, with a 
copy to the person listed in the preceding FOR FURTHER INFORMATION 
CONTACT section, and the Associate General Counsel for the Air and 
Radiation Law Office, Office of General Counsel (Mail Code 2344A), 
Environmental Protection Agency, 1200 Pennsylvania Ave., NW., 
Washington, DC 20004. Note, under CAA section 307(b)(2), the 
requirements established by this final rule may not be challenged 
separately in any civil or criminal proceedings brought by EPA to 
enforce these requirements.
    Acronyms and Abbreviations. The following acronyms and 
abbreviations are used in this document.

AAPG American Association of Petroleum Geologists
AGA American Gas Association
AGR Acid gas removal
ANSI American National Standards Institute
API American Petroleum Institute
ASME American Society of Mechanical Engineers
ASTM American Society for Testing and Materials
BLS Bureau of Labor Statistics
BOEMRE Bureau of Ocean Energy Management, Regulation and Enforcement
CAA Clean Air Act
CBI Confidential business information
CBM Coal bed methane
CEMS Continuous emission monitoring systems
cf cubic feet
CFR Code of Federal Regulations
CH4 methane
CO2 carbon dioxide
CO2e CO2-equivalent
DOE Department of Energy
E&P exploration and production
EIA Economic Impact Analysis
EO Executive Order
EOR enhanced oil recovery
EPA U.S. Environmental Protection Agency
ESD emergency shutdown
FPSO floating production and storage offloading
FR Federal Register
GHG greenhouse gas
GOR gas to oil ratio
GRI Gas Research Institute
GWP global warming potential
HHV high heat value
IBR incorporation by reference
ICR information collection request
IPCC Intergovernmental Panel on Climate Change
IR infrared
ISO International Organization for Standardization
kg kilograms
LACT lease automatic custody transfer
LDCs local natural gas distribution companies
LNG liquefied natural gas
LPG liquefied petroleum gas
M&R meters and regulators
mmBtu million British thermal units
MMS Minerals Management Service
MMscfd million standard cubic feet per day
MMTCO2e million metric tons carbon dioxide equivalent
MRR mandatory GHG reporting rule
N2O nitrous oxide
NAESB North American Energy Standards Board
NAICS North American Industry Classification System
NGLs natural gas liquids
NTTAA National Technology Transfer and Advancement Act
OAQPS Office of Air Quality, Planning and Standards
OMB Office of Management and Budget
OVA organic vapor analyzer
ppm parts per million
QA quality assurance
QA/QC quality assurance/quality control
RFA Regulatory Flexibility Act
RGGI Regional Greenhouse Gas Initiative
RIA Regulatory Impact Analysis
SBA Small Business Administration
SBREFA Small Business Regulatory Enforcement and Fairness Act
SSM startup, shutdown, and malfunction
STP standard temperature and pressure
TCR The Climate Registry
TSD technical support document
TVA toxic vapor analyzer

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U.S. United States
UMRA Unfunded Mandates Reform Act of 1995
U.S.C. United States Code
USGS United States Geologic Society
VOC volatile organic compound(s)
WCI Western Climate Initiative

Table of Contents

I. Background
    A. Organization of this Preamble
    B. Background on the Final Rule
    C. Legal Authority
II. Reporting Requirements for Petroleum and Natural Gas Systems
    A. Overview of Greenhouse Gas Reporting Program
    B. Overview of Confidentiality Determination for Data Elements 
in the Greenhouse Gas Reporting Program
    C. Summary of Changes to the General Provisions of the 
Greenhouse Gas Reporting Program
    D. Summary of the Requirements for Petroleum and Natural Gas 
Systems (Subpart W)
    E. Summary of Major Changes and Clarifications Since Proposal
    F. Summary of Comments and Responses
III. Economic Impacts of the Rule
    A. How were compliance costs estimated?
    B. What are the costs of the rule?
    C. What are the economic impacts of the rule?
    D. What are the Impacts of the Rule on Small Businesses?
    E. What are the Benefits of the Rule for Society?
IV. Statutory and Executive Order Reviews
    A. Executive Order 12866: Regulatory Planning and Review
    B. Paperwork Reduction Act
    C. Regulatory Flexibility Act (RFA)
    D. Unfunded Mandates Reform Act (UMRA)
    E. Executive Order 13132: Federalism
    F. Executive Order 13175: Consultation and Coordination with 
Indian Tribal Governments
    G. Executive Order 13045: Protection of Children from 
Environmental Health Risks and Safety Risks
    H. Executive Order 13211: Actions that Significantly Affect 
Energy Supply, Distribution, or Use
    I. National Technology Transfer and Advancement Act
    J. Executive Order 12898: Federal Actions to Address 
Environmental Justice in Minority Populations and Low-Income 
Populations
    K. Congressional Review Act

I. Background

A. Organization of This Preamble

    This preamble consists of four sections. The first section provides 
a brief history of 40 CFR part 98 and describes the purpose and legal 
authority for this action.
    The second section of this preamble summarizes the revisions made 
to the general provisions in 40 CFR part 98, subpart A and outlines the 
specific requirements for subpart W being incorporated into 40 CFR part 
98 by this action. It also describes the major changes made to this 
source category since proposal and provides a brief summary of 
significant public comments and EPA's responses on issues specific to 
each industry segment. Additional responses to significant comments can 
be found in the document Mandatory Greenhouse Gas Reporting Rule: EPA's 
Response to Public Comments, Subpart W: Petroleum and Natural Gas 
Systems.
    The third section of this preamble provides the summary of the cost 
impacts, economic impacts, and benefits of the final rule and discusses 
comments on the economic impact analyses for subpart W.
    Finally, the last section discusses the various statutory and 
executive order requirements applicable to this rulemaking.

B. Background on the Final Rule

    This action finalizes monitoring and reporting requirements for 
petroleum and natural gas systems.
    On April 12, 2010, EPA proposed subpart W--Petroleum and Natural 
Gas Systems, amending 40 CFR part 98 (i.e., the regulatory requirements 
for the Greenhouse Gas Reporting Program). The GHG Reporting Program 
requires reporting of GHG emissions and other relevant information from 
certain source categories in the United States. The GHG Reporting 
Program, which became effective on December 29, 2009, includes 
reporting requirements for facilities and suppliers in 32 source 
categories. EPA established this program in response to the fiscal year 
2008 Consolidated Appropriations Act.\2\ This Act authorized funding 
for EPA to develop and publish a rule ``* * * to require the mandatory 
reporting of greenhouse gas emissions above appropriate thresholds in 
all sectors of the economy of the United States.'' An accompanying 
joint explanatory statement directed EPA to ``use its existing 
authority under the Clean Air Act'' to develop a mandatory GHG 
reporting rule. For more detailed background information on the GHG 
Reporting Program, see the preamble to the final rule establishing the 
GHG Reporting Program (74 FR 56260, October 30, 2009).
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    \2\ Consolidated Appropriations Act, 2008, Public Law 110-161, 
121 Stat. 1844, 2128. Congress reaffirmed interest in a GHG 
reporting rule, and provided additional funding in the 2009 and 2010 
Appropriations Acts (Consolidated Appropriations Act, 2009, Pub. L. 
110-329, 122 Stat. 3574-3716 and Consolidated Appropriations Act, 
2010, Pub. L. 111-117, Stat. 3034-3408).
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    This final action adds requirements for facilities that contain 
petroleum and natural gas systems to report equipment leaks and vented 
GHG emissions (subpart W) to the GHG Reporting Program. The rule 
applies to facilities in specific segments of the petroleum and natural 
gas industry that emit GHGs greater than or equal to 25,000 metric tons 
of CO2 equivalent per year. These data will inform EPA's 
implementation of CAA section 103(g) regarding improvements in sector 
based non-regulatory strategies and technologies for preventing or 
reducing air pollutants, and inform policy on possible regulatory 
actions to address GHG emissions. As stated earlier in this section, 
this rule was proposed by EPA on April 12, 2010. One public hearing was 
held in April 2010, and the 60-day public comment period ended June 11, 
2010.

C. Legal Authority

    EPA is promulgating 40 CFR part 98, subpart W under the existing 
CAA authorities provided in CAA section 114. As discussed in detail in 
Sections I.C and II.Q of the preamble to the 2009 final rule (74 FR 
56260), CAA section 114(a)(1) provides EPA with broad authority to 
require emissions sources, persons subject to the CAA, manufacturers of 
process or control equipment, or persons whom the Administrator 
believes may have necessary information to monitor and report emissions 
and provide such other information as the Administrator requests for 
the purposes of carrying out any provision of the CAA. EPA may gather 
information for a variety of purposes, including for the purpose of 
assisting in the development of emissions reduction regulations in the 
petroleum and natural gas industry, determining compliance with 
implementation plans or standards, or more broadly for ``carrying out 
any provision'' of the CAA. Section 103 of the CAA authorizes EPA to 
establish a national research and development program, including non-
regulatory approaches and technologies, for the prevention and control 
of air pollution, including GHGs. As discussed in the petroleum and 
natural gas systems proposal (75 FR 18608, April 12, 2010), among other 
things, data from petroleum and natural gas systems will inform 
decisions about possible emissions reduction regulations in the 
petroleum and natural gas industry. The data collected will also inform 
EPA's implementation of CAA section 103(g) regarding improvements in 
sector-based

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non-regulatory strategies and technologies for preventing or reducing 
air pollutants.
    EPA has the authority under the CAA to collect emissions 
information from offshore petroleum and natural gas platforms including 
those located in areas of the Central and Western Gulf of Mexico as 
identified in CAA section 328(b). This final action does not regulate 
GHG emissions; rather it gathers information to inform EPA's evaluation 
of various CAA provisions. Moreover, EPA's authority under CAA section 
114 is broad, and extends to any person ``who the Administrator 
believes may have information necessary for the purposes'' of carrying 
out the CAA, even if that person is not subject to the CAA. Indeed, by 
specifically authorizing EPA to collect information from both persons 
subject to any requirement of the CAA, as well as any person who the 
Administrator believes may have necessary information, Congress clearly 
intended that EPA could gather information from a person not otherwise 
subject to CAA requirements. EPA is comprehensively considering how to 
address climate change under the CAA, including both regulatory and 
non-regulatory options. The information from offshore platforms will 
inform our analyses, including options applicable to emissions of any 
offshore platforms that EPA is authorized to regulate under the CAA.

II. Reporting Requirements for Petroleum and Natural Gas Systems

A. Overview of Greenhouse Gas Reporting Program

    The GHG Reporting Program requires reporting of GHG emissions and 
other relevant information from certain source categories in the United 
States, as discussed in Section I.B. of this preamble. The rule 
requires annual reporting of GHGs including carbon dioxide 
(CO2), methane (CH4), nitrous oxide 
(N2O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), 
sulfur hexafluoride (SF6), and other fluorinated compounds 
(e.g., hydrofluoroethers (HFEs)).
    The GHG Reporting Program requires that source categories subject 
to 40 CFR part 98 monitor and report GHGs in accordance with the 
methods specified in the individual subparts. For a list of the 
specific GHGs to be reported and the GHG calculation procedures, 
monitoring, missing data procedures, recordkeeping, and reporting 
required by facilities subject to subpart W included in this action, 
see Section II.D of this preamble.

B. Overview of Confidentiality Determination for Data Elements in the 
Greenhouse Gas Reporting Program

    This final rule does not address whether data reported under 
subpart W will be released to the public or will be treated as 
confidential business information. EPA published a proposed rule and 
confidentiality determination on July 7, 2010 (75 FR 39094) that 
addressed this issue. In that action, EPA proposed which specific data 
elements would be released to the public and which would be treated as 
confidential business information. EPA received comments on the 
proposal, and is in the process of considering these comments. A final 
rule and determination will be issued before any data are released, and 
the final determination will include all of the data elements under 
subpart W.

C. Summary of Changes to the General Provisions of the Greenhouse Gas 
Reporting Program

    This final action amends certain requirements in 40 CFR part 98, 
subpart A (General Provisions). These amendments are summarized in this 
section of the preamble.
    Changes to Applicability. In this final action, EPA is amending 
Table A-4 of subpart A, referenced in 40 CFR 98.2(a)(2), to add the 
petroleum and natural gas systems source category. In addition, EPA is 
amending 40 CFR 98.2(a) so that 40 CFR part 98 applies to facilities 
located in the United States and on or under the Outer Continental 
Shelf. This revision is necessary to ensure that any petroleum or 
natural gas platforms located on or under the Outer Continental Shelf 
of the United States are required to report under 40 CFR part 98, 
subpart W.
    Changes to Definitions. In this final action, EPA is also amending 
40 CFR 98.6 (definitions). EPA is revising the definition of United 
States as applied under part 98 to clarify that it includes the 
territorial seas. Other facilities located offshore of the United 
States covered by the GHG Reporting Program at 40 CFR part 98 may also 
be affected by this change in the definition of United States. In 
addition to the change to the definition of United States, EPA has 
amended 40 CFR 98.6 by adding a definition of ``Outer Continental 
Shelf.'' This definition is drawn from the definition in the U.S. Code 
and the Clean Air Act, 328(a)(4)(A). These revisions are necessary to 
ensure that facilities on land, in the territorial seas, or on or under 
the Outer Continental Shelf, as defined in 43 U.S.C. 1331, and that 
otherwise meet the applicability criteria of the rule are required to 
report.
    Incorporation by Reference (IBR). In the April 2010 proposal, EPA 
proposed to amend 40 CFR 98.7 by including the following standard 
methods: GRI GlyCalc software, the E&P Tank software, and the American 
Association of Petroleum Geologist (AAPG) Geologic Provinces Code Map. 
EPA has revised the listing of proposed methods for incorporation by 
reference. Hence, in this final action EPA is finalizing amendments to 
40 CFR 98.7 (incorporation by reference) to include standard methods 
referenced in 40 CFR part 98, subpart W. Those include: American 
Association of Petroleum Geologists Geologic Provinces Code Map 
including the Alaska Geological Province Boundary Map; and the Energy 
Information Administration Oil and Gas Field Code Master List.

D. Summary of the Requirements for Petroleum and Natural Gas Systems 
(Subpart W)

1. Summary of the Final Rule
    Source Category Definition. This source category consists of the 
following segments of the petroleum and natural gas systems source 
category:

     Offshore petroleum and natural gas production. Offshore 
petroleum and natural gas production is any platform structure, 
affixed temporarily or permanently to offshore submerged lands, that 
houses equipment to extract hydrocarbons from the ocean or lake 
floor and that processes and/or transfers such hydrocarbons to 
storage, transport vessels, or onshore. In addition, offshore 
production includes secondary platform structures connected to the 
platform structure via walkways, storage tanks associated with the 
platform structure, and floating production and storage offloading 
equipment (FPSO). This source category does not include reporting of 
emissions from offshore drilling and, exploration that is not 
conducted on production platforms.
     Onshore petroleum and natural gas production. Onshore 
petroleum and natural gas production means all equipment on a well 
pad or associated with a well pad (including compressors, 
generators, or storage facilities), and portable non-self-propelled 
equipment on a well pad or associated with a well pad (including 
well drilling and completion equipment, workover equipment, gravity 
separation equipment, auxiliary non-transportation-related 
equipment, and leased, rented or contracted equipment) used in the 
production, extraction, recovery, lifting, stabilization, separation 
or treating of petroleum and/or natural gas (including condensate). 
This equipment also includes associated storage or measurement 
vessels and all enhanced oil recovery (EOR) operations using 
CO2, and all petroleum and natural gas production located 
on islands, artificial islands, or structures connected by a 
causeway to land, an island, or artificial island.

[[Page 74462]]

     Onshore natural gas processing. Natural gas processing 
means facilities that separate and recovers natural gas liquids 
(NGLs) and/or other non-methane gases and liquids from a stream of 
produced natural gas using equipment performing one or more of the 
following processes: oil and condensate removal, water removal, 
separation of natural gas liquids, sulfur and carbon dioxide 
removal, fractionation of NGLs, or other processes, and also the 
capture of CO2 separated from natural gas streams. This 
segment also includes all residue gas compression equipment owned or 
operated by the natural gas processing facility, whether inside or 
outside the processing facility fence. This source category does not 
include reporting of emissions from gathering lines and boosting 
stations. This source category includes: (1) all processing 
facilities that fractionate and (2) those that do not fractionate 
with throughput of 25 MMscf per day or greater.
     Onshore natural gas transmission compression. Onshore 
natural gas transmission compression includes any stationary 
combination of compressors that move natural gas at elevated 
pressure from production fields or natural gas processing 
facilities, in transmission pipelines, to natural gas distribution 
pipelines, or into storage. In addition, transmission compressor 
stations may include equipment for liquids separation, natural gas 
dehydration, and tanks for the storage of water and hydrocarbon 
liquids. Residue (sales) gas compression operated by natural gas 
processing facilities are included in the onshore natural gas 
processing segment and are excluded from this segment. This source 
category also does not include reporting of emissions from gathering 
lines and boosting stations--these sources are currently not covered 
by subpart W.
     Underground natural gas storage. Underground natural 
gas storage includes subsurface storage, including depleted gas or 
oil reservoirs and salt dome caverns that store natural gas that has 
been transferred from its original location for the primary purpose 
of load balancing (the process of equalizing the receipt and 
delivery of natural gas); natural gas underground storage processes 
and operations (including compression, dehydration and flow 
measurement, and excluding transmission pipelines); and all the 
wellheads connected to the compression units located at the facility 
that inject natural gas into and remove natural gas from the 
underground reservoirs.
     Liquefied natural gas (LNG) storage. LNG storage 
includes onshore LNG storage vessels located above ground, equipment 
for liquefying natural gas, compressors to capture and re-liquefy 
boil-off-gas, re-condensers, and vaporization units for re-
gasification of the liquefied natural gas.
     LNG import and export facilities. LNG import equipment 
includes all onshore or offshore equipment that receives imported 
LNG via ocean transport, stores LNG, re-gasifies LNG, and delivers 
re-gasified natural gas to a natural gas transmission or 
distribution system. LNG export equipment means all onshore or 
offshore equipment that receives natural gas, liquefies natural gas, 
stores LNG, and transfers the LNG via ocean transportation to any 
location, including locations in the United States.
     Natural gas distribution. Natural gas distribution 
includes the distribution pipelines (not interstate transmission 
pipelines or intrastate transmission pipelines) and metering and 
regulating equipment at city gate stations, and excluding customer 
meters, that physically deliver natural gas to end users and is 
operated by a Local Distribution Company (LDC) that is regulated as 
a separate operating company by a public utility commission or that 
is operated as an independent municipally-owned distribution system. 
This segment excludes customer meters and infrastructure and 
pipelines (both interstate and intrastate) delivering natural gas 
directly to major industrial users and ``farm taps'' upstream of the 
local distribution company inlet--these sources are not covered by 
subpart W.

    Facilities from the following segments: (1) Offshore petroleum and 
natural gas production, (2) onshore natural gas processing, (3) onshore 
natural gas transmission compression, (4) underground natural gas 
storage, (5) LNG storage, and (6) LNG import and export equipment, that 
meet the applicability criteria in the General Provisions (40 CFR 
98.2(a)(2)) and summarized in Section II.C of this preamble must report 
GHG emissions. Facilities assessing their applicability in the onshore 
petroleum and natural gas production segment (as defined in 40 CFR 
98.238), must include only emissions from equipment, as specified in 40 
CFR 98.232(c) to determine if they exceed the 25,000 metric ton 
CO2e threshold and thus are required to report their GHG 
emissions. Facilities assessing their applicability in the onshore 
natural gas distribution industry segment (as defined in 40 CFR 
98.238), must include only emissions from equipment as specified 40 CFR 
98.232(i) to determine if they exceed the 25,000 metric ton 
CO2e threshold and thus are required to report their GHG 
emissions. For other segments, facilities must assess applicability 
based on all source categories for which methods are provided in the 
GHG Reporting Program.
    GHGs to Report. Facilities must report:
     Carbon dioxide (CO2) and methane 
(CH4) emissions from equipment leaks and vents.
     CO2, CH4, and nitrous oxide 
(N2O) from combustion.
     CO2, CH4, and nitrous oxide 
(N2O) emissions from combustion at flares.
    Reporting Threshold. Facilities that contain petroleum and natural 
gas systems that meet the requirements of 40 CFR 98.2(a)(2) are to 
report GHG emissions under subpart W. For applying the threshold 
defined in 40 CFR 98.2(a)(2), an onshore petroleum and natural gas 
production facility will consider emissions only from equipment 
specified in 40 CFR 98.232(c). For applying the threshold defined in 40 
CFR 98.2(a)(2), a natural gas distribution facility shall consider 
emissions only from equipment specified in 40 CFR 98.232(i).
    GHG Emissions Calculation and Monitoring. The petroleum and natural 
gas source category consists of several segments (e.g., onshore 
petroleum and natural gas production, natural gas processing). Within 
those segments, there are different types of emissions sources, some of 
which appear in multiple segments (e.g., pneumatic devices, blowdown 
vents, etc.). Subpart W provides methodologies for calculating 
emissions from each source type. Although the rule, in some cases, 
allows reporters the flexibility to choose from more than one method 
for calculating emissions from a specific source type, reporters must 
keep record in their monitoring plans as outlined in 40 CFR 98.3(g) of 
this chapter. Table 3 of this preamble summarizes those source types 
and indicates their applicable segments. Reporters of an industry 
segment as defined by 40 CFR 98.230 would report emissions under 
subpart W only from the corresponding source types listed for that 
particular industry segment as defined in 40 CFR 98.232. For example, 
an onshore natural gas transmission compression reporter as defined by 
40 CFR 98.230(a)(4) would report emissions under subpart W only for 
sources defined in 40 CFR 98.232(e). The text following the table 
summarizes the different methodologies reporters must use to monitor 
and calculate their GHG emissions from each emissions source.
    It is important to note, as detailed in Section II.F of this 
preamble, that for specified time periods during the 2011 data 
collection year, reporters may use best available monitoring methods 
for certain emissions sources in lieu of the methods prescribed for 
specific sources below. This is intended to give reporters flexibility 
as they revise procedures and contractual arrangements during early 
implementation of the rule.

[[Page 74463]]



                                                Table 3--Summary of Source Types in Each Industry Segment
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                                                                                                                    LNG
                                                                                 Natural    Natural gas                            Import
                     Source type                        Offshore     Onshore       gas     transmission  Underground     LNG        and     Distribution
                                                       production  production  processing   compression    storage     Storage     export
                                                                                                                                 equipment
--------------------------------------------------------------------------------------------------------------------------------------------------------
Natural gas pneumatic device venting.................                       X                        X            X
Natural gas driven pneumatic pump venting............                       X
Acid gas removal vent stack..........................                       X           X
Dehydrator vent stacks...............................                       X           X
Well venting for liquids unloading...................                       X
Gas well venting during well completions and                                X
 workovers with hydraulic fracturing.................
Gas well venting during well completions and                                X
 workovers without hydraulic fracturing..............
Blowdown vent stacks.................................                       X           X            X                                   X
Onshore production storage tanks.....................                       X
Transmission storage tanks...........................                                                X
Well testing venting and flaring.....................                       X
Associated gas venting and flaring...................                       X
Flare stacks.........................................                       X           X
Centrifugal compressor venting.......................                       X           X            X            X           X          X
Reciprocating compressor rod packing venting.........                       X           X            X            X           X          X
Other emissions from equipment leaks.................                       X           X            X            X           X          X            X
Population Count and Emissions Factor................                       X                                     X           X          X            X
Vented, Equipment Leaks and Flare Emissions                     X
 Identified in BOEMRE GOADS Study....................
Enhanced Oil Recovery hydrocarbon liquids dissolved                         X
 CO2.................................................
Enhanced Oil Recovery injection pump blowdown........                       X
Onshore Petroleum and Natural Gas Production and                            X                                                                         X
 Natural Gas Distribution Combustion Emissions.......
--------------------------------------------------------------------------------------------------------------------------------------------------------

2. Summary of Methodologies for Each Source Type in Table 3 of this 
preamble.
     Natural gas pneumatic device venting: Calculate 
CO2 and CH4 emissions from natural gas 
pneumatic devices using component count for each type (i.e., 
continuous high bleed, continuous low bleed, and intermittent bleed) 
together with a population emission factor for each type from Tables 
W-1A, W-3, and W-4 of subpart W. Onshore petroleum and natural gas 
production reporters must complete a total count of pneumatic 
devices any time within the first three calendar years. A reporter 
must report pneumatic device emissions annually. For any years where 
activity data (count of pneumatic devices) is incomplete, use best 
available data or engineering estimates to calculate pneumatic 
device emissions.
     Natural gas driven pneumatic pump venting: Calculate 
CO2 and CH4 emissions using component count of 
natural gas pneumatic pumps together with a population emission 
factor from Table W-1A of subpart W.
     Acid gas removal (AGR) vents: Calculate CO2 
emissions using one of the following calculation methodologies:

--Use CEMS as specified under subpart C of this section. If CEMS is 
not operated or maintained, a CEMS may be installed.
--Use metered flow and volume weighted CO2 content of the 
vent stack gas. The approaches available to measure the volume 
weighted CO2 content include using a continuous gas 
analyzer or sampling the gas quarterly.
--Use metered flow of the inlet natural gas and volume weighted 
CO2 content of the natural gas flowing into and out of 
the AGR unit. The approaches available to measure the volume 
weighted CO2 content include using a continuous gas 
analyzer or sampling the gas quarterly.
--Use a process simulator that uses the Peng-Robinson equation of 
state and speciates CO2 emissions.

     Dehydrator vents. Calculate CH4 and 
CO2 emissions using the following calculation 
methodologies:

--For glycol dehydrators with a throughput greater than or equal to 
0.4 million standard cubic feet per day, use a software program such 
as GRI GlyCalc or AspenTech HYSYS[reg] for example, to calculate 
emissions. The software program must determine the equilibrium 
coefficient using the Peng-Robinson equation of state, speciates 
CH4 and CO2 emissions from dehydrators, and 
have provisions to include regenerator control devices, a separator 
flash tank, stripping gas, and gas injection pump or gas assist 
pump.
--For glycol dehydrators with a throughput less than 0.4 million 
standard cubic feet per day, use daily flow rate of wet natural gas 
together with an emission factor to calculate CO2 and 
CH4 emissions. There are separate emission factors for 
dehydrator units with a gas assist pump.
--For desiccant dehydrators, calculate the amount of gas vented from 
the vessel every time it is depressurized for desiccant replacement. 
This involves knowing the dimensions of the dehydrator and percent 
of the vessel that is packed with desiccant, and the time between 
desiccant refilling.

     Well venting for liquids unloading: Calculate 
CO2 and CH4 emissions using either of the 
following calculation methodologies (the same methodology must be 
used for the entire duration of the calendar year).

--Determine the average gas flow for the duration of the liquids 
unloading using a meter on the vent line. A new average flow rate 
must be calculated every other year starting in the first calendar 
year of reporting. Use the total venting time during the year 
together with the gas flow rate to determine the gas vented during 
liquid unloading.
--Determine the casing dimension, the shut-in pressure, sales flow 
rate and hours that the well was left open to the atmosphere to 
calculate the volume of gas emitted during liquid unloading.

     Gas well venting during well completions and workovers 
from hydraulic fracturing: Calculate CO2 and 
CH4 emissions using the cumulative vent time during the 
year and the flow rate of gas vented, separately for both 
completions and workovers. Use either of the following methodologies 
to determine the flow rate of the gas.

--Determine the flow rate of vented gas from one well during a well 
completion, and also one well workover event, using a meter 
installed on the vent line. A flow rate determined from a well 
during a well completion can be applied to all wells in

[[Page 74464]]

the same field that undergo a completion. A flow rate determined 
from a well during a well workover can be applied to all wells in 
the same field that undergo a workover. A field-level emissions 
factor must be developed every 2 years starting in the first 
calendar year of reporting.
--Measure the pressure before and after the well choke for both one 
well during a well completion, and also one well workover event. A 
flow rate determined from a well during a well completion can be 
applied to all wells in the same field that undergo a completion. A 
flow rate determined from a well during a well workover can be 
applied to all wells in the same field that undergo a workover. The 
flow rate must be determined in the first year of every 2-year 
period. Separate equations are provided for sonic and sub-sonic 
flow.

     Gas well venting during well completions and workovers 
without hydraulic fracturing: Calculate CO2 and 
CH4 emissions using the cumulative vent time during the 
year and average daily gas production for each well.
     Blowdown vent stacks. Calculate CH4 and 
CO2 emissions from blowdown vent stacks by calculating 
the total volume of equipment and vessels blown down between 
isolation valves. This includes the volume of all piping, compressor 
cases or cylinders, manifolds, suction and discharge bottles or any 
other gas-containing volume contained between the isolation valves. 
Total physical volume of less than 50 cubic feet between isolation 
valves of process vessels, piping, and equipment do not have to be 
reported. The total volume contained between isolation valves, which 
can be determined using an engineering equation based on best 
available data, for each process vessel and the number of times it 
was blowndown in the calendar year equals the actual volume of 
emissions, which are then converted to GHG volumes at standard 
conditions and GHG emissions using the concentration of 
CH4 and CO2 in the applicable stream. 
Reporters may use the same calculated volumes in subsequent years if 
the hardware has not changed. For process vessels blowndown to a 
flare, calculate the volume of emissions the same as if they were 
not flared, then use that volume as an input parameter in the flare 
stacks section to estimate combustion emissions.

     Onshore production storage tanks: Calculate 
CH4 and CO2 emissions using one of the 
following calculation methodologies:

--For tanks with separator throughput greater than or equal to 10 
barrels per day, use a software program, such as AspenTECH[reg] or 
API 4697 E&P Tank for example, that uses the Peng-Robinson equation 
of state, models flashing emissions, and speciates CH4 
and CO2 emissions from tanks. The low pressure separator 
oil composition and Reid vapor pressure can be determined using the 
default values within the software program, or using a 
representative sample analysis.
--Alternatively, for tanks with separator throughput greater than or 
equal to 10 barrels per day, you may assume all of the 
CH4 and CO2 in the low pressure separator oil 
is emitted. The low pressure separator oil composition shall be 
determined using an appropriate sample analysis, or default oil 
compositions in software programs.
--For wells with oil production greater than or equal to 10 barrels 
per day that flow directly to a tank without going through a 
separator, calculate emissions by using an appropriate sample 
analysis and assuming all of the CH4 and CO2 
are emitted.
--For separator throughput or wells flowing directly to tanks with 
throughput less than 10 barrels per day, use a population emission 
factor together with the flow rate.
--Account for occurrences when the separator dump valve is 
improperly open and bypassing gas to the tank through the liquid, by 
determining the number of hours the dump valve is open and scaling 
the emissions upwards using the correction factor. The number of 
hours the dump valve is open can be determined using the maintenance 
or operations records as follows: (1) Assume that if a dump valve is 
found open, that it was open from either the beginning of the 
calendar year, or since the most recent maintenance or operations 
record confirming proper closure of the dump valve and (2) Assume 
that a dump valve is improperly open until there is a maintenance or 
operations record showing that the dump valve is closed or to the 
end of the calendar year.

     Transmission storage tanks. For transmission storage 
tanks, once per calendar year reporters must monitor the tank vapor 
vent stack using an optical gas imaging instrument, to view the 
emissions for 5 minutes. Alternatively, the scrubber dump valves can 
be monitored with an acoustic leak detector. If the vent stack emits 
continuously over that time period, then the reporter must use 
either a meter or an acoustic leak detection device to measure the 
flow rate of the vent to determine emissions. This will quantify 
tank emissions resulting from malfunctioning scrubber dump valves. 
If a tank is vented to a flare, then use the onshore petroleum and 
natural gas production storage tanks methodology option 1 
(simulation) to estimate the volume and composition of vapors 
flared. Then use the flare stacks methodology to estimate the 
emissions.
     Well testing venting and flaring. Calculate 
CH4, CO2, and N2O emissions from 
well testing venting and flaring by multiplying available data from 
production records on the gas-to-oil ratio for produced hydrocarbon 
liquids, by the flow rate (in barrels of oil per day) of the well 
being tested, by the number of days in the calendar year the well is 
tested. If gas-to-oil ratios are not available, use a sample 
analysis to determine gas-to-oil ratios. For the calculated testing 
gas volume that is flared, use the method set forth for flare stacks 
to estimate the emissions.
     Associated gas venting and flaring. Calculate 
CH4, CO2, and N2O emissions from 
associated gas venting and flaring by multiplying available data 
from production records on the gas-to-oil ratio for produced 
hydrocarbon liquids, by the volume of liquids produced in the 
calendar year. The gas-to-oil ratios can be determined by the use of 
a representative gas-to-oil ratio of wells in the same field. If 
gas-to-oil ratios are not readily available, use a sample analysis 
to determine gas-oil ratios. For the calculated associated gas 
volume that is flared, use the method set forth for flare stacks to 
estimate the emissions.
     Flare stacks. Calculate CH4, CO2, 
and N2O emissions from flare stacks by metering or using 
engineering estimation to determine the volume of gas sent to the 
flare, and the gas composition to then estimate the portion that is 
combusted and the portion that is not combusted, using the flare 
efficiency. Where methodologies for other sources in subpart W refer 
to this methodology in order to estimate flaring emissions, use the 
estimated volume of flared gas from those sources as the gas to 
flare volume in this methodology, and report those emissions under 
those sources. Calculate N2O from flare stacks using the 
methodology set forth for in 40 CFR 98.233(z).
     Centrifugal compressor venting.
--Calculate CH4 and CO2 emissions from wet 
seal oil degassing vents in onshore petroleum and natural gas 
production by counting the total population of centrifugal 
compressors and multiplying it by the appropriate emission factors.

--Calculate CH4 and CO2 emissions from wet 
seal and dry seal centrifugal compressor blowdown vents, wet seal 
degassing, and unit isolation valves for wet seal and dry seal 
compressors (see Table 4 of this preamble) found in onshore natural 
gas processing, onshore natural gas transmission compression, 
underground natural gas storage, LNG storage, and LNG import and 
export equipment by:
--Measuring venting from blowdown vents when the compressor is found 
in the operating mode using a meter.
    - Measuring wet seal degassing venting when the compressor is 
found in the operating mode using a meter.
--Measuring venting from unit isolation valves when the compressor 
is found in not operating, depressurized mode using a meter. If 
these sources are vented through a common manifold, you must measure 
each vent source separately. Determine average emissions from each 
mode of operation by summing the emissions from each source in each 
mode and dividing it by the total population measured. The result 
will be an emission factor per compressor per hour for each mode of 
operation. Multiply each emission factor by the total number of 
compressor-hours in each mode of operation. Reporters are not 
required to shutdown compressors to conduct measurements. The owner 
or operator must schedule an annual measurement of each compressor 
and the owner or operator can take the measurement in the mode in 
which the compressor is found during the annual measurement. 
However, the owner or operator must conduct a measurement of each 
compressor in the not operating, depressurized mode at least once 
every three calendar years. Please see Compressor Modes and 
Threshold, Docket EPA-HQ-OAR-2009-0923.

[[Page 74465]]



     Table 4--Summary of Emission Factor Categories for Centrifugal
                           Compressor Venting
------------------------------------------------------------------------
                                             Operating mode
                              ------------------------------------------
          Component                                  Not operating--
                                  Operating           depressurized
------------------------------------------------------------------------
Blowdown Vent................  Individual       Not Applicable.
                                Factor.
Wet Seal Oil Degassing Vent..  Individual       Not Applicable.
                                Factor.
Unit Isolation Valve.........  Not Applicable.  Individual Factor.
------------------------------------------------------------------------

     Reciprocating compressor rod packing venting. Calculate 
CH4 and CO2 emissions from reciprocating 
compressor rod packing venting in onshore petroleum and natural gas 
production by counting the total population of reciprocating 
compressors and multiplying it by the emission factors provided in 
40 CFR 98.233(p)(10). Calculate CH4 and CO2 
emissions for reciprocating compressor blowdown valves, rod packing, 
and unit isolation valves (see Table 5 of this preamble) from 
onshore natural gas processing, onshore natural gas transmission 
compression, underground natural gas storage, LNG storage, and LNG 
import and export equipment by:

--Measuring venting from blowdown vents when the compressor is found 
in operating and standby pressurized modes using a meter.
--Measuring rod packing vents when the compressor is found in 
operating and standby pressurized modes using a meter. If there is 
not a vent line, a rigorous approach of scanning for all potential 
leakage paths for the gas must be used and quantified with a meter, 
high volume sampler, or calibrated bag as appropriate.
--Measuring venting from unit isolation valves using a meter when 
the compressor is found in not operating, depressurized mode. For 
through-valve leakage to open ended vents, such as unit isolation 
valves on not operating depressurized compressors, acoustic leak 
detection devices may also be used.

    If these sources are vented through a common manifold, you must 
measure each vent source separately. Determine average emissions 
from each mode of operation by summing the emissions from each 
source in each mode and dividing it by the total population 
measured. The result will be an emission factor per compressor per 
hour for each mode of operation. Multiply each emission factor by 
the total number of compressor-hours in each mode of operation. 
Reporters are not required to shut down compressors to conduct 
measurements. The owner or operator must conduct a measurement of 
each compressor, and measure the compressor in the mode as it is 
found during the annual measurement. However, the owner or operator 
must conduct at least one measurement of each compressor in the not 
operating, depressurized mode at least one time every 3 calendar 
years. Please see ``Compressor Modes and Threshold'' Docket EPA-HQ-
OAR-2009-0923.

               Table 5--Summary of Emission Factor Categories for Reciprocating Compressor Venting
----------------------------------------------------------------------------------------------------------------
                                                                   Operating mode
             Component             -----------------------------------------------------------------------------
                                          Operating         Standby pressurized    Not operating--depressurized
----------------------------------------------------------------------------------------------------------------
Blowdown Vent.....................   Use measurements in either mode to develop   Not Applicable.
                                                   combined factor.
----------------------------------------------------------------------------------------------------------------
Rod Packing Seals.................  Individual Factor....  Individual Factor....  Not Applicable.
----------------------------------------------------------------------------------------------------------------
Unit Isolation Valve..............  Not Applicable.......  Not Applicable.......  Individual Factor.
----------------------------------------------------------------------------------------------------------------

     Leak detection and leaker factors (onshore natural gas 
processing, onshore natural gas transmission compression, 
underground natural gas storage, LNG storage, LNG import export, 
natural gas distribution). Perform a leak detection survey using one 
of the three following methods:

--Use an optical gas imaging instrument. The method must be used for 
all sources that cannot be monitored without elevating personnel 
more than 2 meters above a support surface.
--Use an infrared laser beam illuminated instrument.
--Use Method 21.
--Multiply the count of each type of leaking component by the 
appropriate leaker factors in Tables W-2, W-3, W-4, W-5, W-6, and W-
7 of subpart W. Tubing systems less than 0.5 inch are exempt from 
reporting.
--For natural gas distribution, leak detection is required only for 
above ground metering and regulating stations (also called ``gate 
stations'') at which custody transfer occurs. The leak detection and 
monitoring requirements prescribed in subpart W do not include 
customer meters. All facilities under this source must conduct at 
least one leak survey each calendar year. Multiple leak surveys may 
be conducted in order to account for leak repairs. If multiple 
surveys are chosen by the owner or operator and performed, each 
survey must be facility wide.
--If only one leak survey is conducted in the calendar year, assume 
that all leaks found emit for the entire year.
--If multiple leak surveys are conducted, assume that each leak that 
is found has been emitting since the last survey; or since the 
beginning of the calendar year. Assume that each leak found during 
the last leak survey in a calendar year continues to emit until the 
end of the calendar year.
     Population count and emission factor. Calculate 
CH4 and CO2 emissions from the sources listed 
in 40 CFR 98.233(r).

--For onshore petroleum and natural gas production, each component 
must either be counted individually; or major equipment pieces must 
be counted and then the appropriate average component counts should 
be applied using Tables W-1B, W-1C, and W-1D of subpart W. The most 
recent gas composition that is representative of the field must be 
used to determine the percent of the leaked gas that is 
CH4 and CO2.
--For underground natural gas storage, the emission factors in Table 
W-4 of subpart W must be applied to population counts of components 
on storage wellheads.
--For LNG storage, the emission factor for vapor recovery 
compressors, must be applied to the total population count.
--For LNG import and export equipment, the emission factor for vapor 
recovery compressors must be applied to the total population count.
--For natural gas distribution, all emissions from above ground 
custody transfer metering and regulating stations as determined by 
leak detection surveys must be totaled and then divided by the total 
number of surveyed meter runs to develop an average emission factor 
for above grade metering and regulating stations. This average 
emission factor will be multiplied by the total number of above 
ground metering and regulating stations meter runs at which custody 
transfer does not occur to estimate emissions from those stations. 
Emission factors in Table W-7 of subpart W will be used to account 
for equipment leaks in underground meter and regulation stations, 
pipelines, and service lines.

     Offshore production. Calculate CO2 and 
CH4 emissions from offshore petroleum and

[[Page 74466]]

natural gas production facilities using the methods outlined by 
BOEMRE \3\ Gulfwide Emissions Inventory Study, herein after referred 
to as ``GOADS.'' Offshore production facilities are not required to 
report portable emissions to EPA.
---------------------------------------------------------------------------

    \3\ The Bureau of Ocean Energy Management, Regulation, and 
Enforcement (BOEMRE) was formerly known as Minerals Management 
Service (MMS).

--Offshore production facilities reporting under the BOEMRE GOADS 
program must report where available the same annual emiss