[Federal Register Volume 77, Number 76 (Thursday, April 19, 2012)]
[Rules and Regulations]
[Pages 23399-23409]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2012-8703]


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ENVIRONMENTAL PROTECTION AGENCY

40 CFR Parts 60 and 63

[EPA-HQ-OAR-2009-0234; EPA-HQ-OAR-2011-0044; FRL-9654-8]
RIN 2060-AP52 and 2060-AR31


National Emission Standards for Hazardous Air Pollutants From 
Coal- and Oil-Fired Electric Utility Steam Generating Units and 
Standards of Performance for Fossil-Fuel-Fired Electric Utility, 
Industrial-Commercial-Institutional, and Small Industrial-Commercial-
Institutional Steam Generating Units; Correction

AGENCY: Environmental Protection Agency (EPA).

ACTION: Final rule; correction.

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SUMMARY: This document corrects certain preamble and regulatory text. 
This action corrects typographical errors, such as cross-reference 
errors and certain preamble text that is not consistent with the final 
regulatory text, which published in the Federal Register on Thursday, 
February 16, 2012 (77 FR 9304).

DATES: Effective date: April 19, 2012.

FOR FURTHER INFORMATION CONTACT: For the NESHAP action: Mr. William 
Maxwell, Energy Strategies Group, Sector Policies and Programs 
Division, (D243-01), Office of Air Quality Planning and Standards, U.S. 
Environmental Protection Agency, Research Triangle Park, North Carolina 
27711; Telephone number: (919) 541-5430; Fax number (919) 541-5450; 
email address: [email protected]. For the new source performance 
standard (NSPS) action: Mr. Christian Fellner, Energy Strategies Group, 
Sector Policies and Programs Division, (D243-01), Office of Air Quality 
Planning and Standards, U.S. Environmental Protection Agency, Research 
Triangle Park, North Carolina 27711; Telephone number: (919) 541-4003; 
Fax number (919) 541-5450; email address: [email protected].

SUPPLEMENTARY INFORMATION: This document corrects certain preamble and 
regulatory text. It is proper to issue this final rule correction 
without notice and comment. Section 553 of the Administrative Procedure 
Act (APA), 5 U.S.C. 553(b)(B), provides that, when an agency for good 
cause finds that notice and public procedure are impracticable, 
unnecessary, or contrary to the public interest, the agency may issue a 
rule without providing notice and an opportunity for public comment. We 
have determined that there is good cause for making this action final 
without prior proposal and opportunity for comment because the changes 
to the rule are minor technical corrections, are noncontroversial, and 
do not substantively change the agency actions taken in the final rule. 
Notice and comment is unnecessary, because these changes do not affect 
the rights or obligations of outside parties, and do not alter the 
substantive requirements of the code of federal regulations (CFR), 
except to the extent that one regulatory provision included an 
inadvertent typographical error that EPA must amend to align with the 
plain text of the Clean Air Act (CAA). We find that this constitutes 
good cause under 5 U.S.C. 553(b)(B).The corrections can be categorized 
generally as follows: Correction of typographical errors (e.g., cross-
reference errors) and correction of certain preamble text that does not 
conform to the final regulatory text. Below, we identify each technical 
correction to the preamble and regulatory text.
    1. Table 5 on page 9368 is corrected to read as follows:

                                      Table 5--Alternate Emission Limitations for Existing Coal- and Oil-Fired EGUS
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                                                                          Liquid oil,          Liquid oil, non-
       Subcategory/pollutant             Coal-fired EGUs              IGCC                continental            continental         Solid oil-derived
--------------------------------------------------------------------------------------------------------------------------------------------------------
SO2................................  2.0E-1 lb/MMBtu (1.5E0  NA....................  NA...................  NA...................  3.0E-1 lb/MMBtu
                                      lb/MWh).                                                                                      (2.0E0 lb/MWh).
Total non-mercury metals...........  5.0E-5 lb/MMBtu (5.0E-  6.0E-5 lb/MMBtu (5.0E-  8.0E-4 lb/MMBtu (8.0E- 6.0E-4 lb/MMBtu(7.0E-  4.0E-5 lb/MMBtu (6.0E-
                                      1 lb/GWh).              1 lb/GWh).              3 lb/MWh) a.           3 lb/MWh) a.           1 lb/GWh).
Antimony, Sb.......................  8.0E-1 lb/TBtu (8.0E-3  1.4E0 lb/TBtu (2.0E-2   1.3E+1 lb/TBtu (2.0E-  2.2E0 lb/TBtu (2.0E-2  8.0E-1 lb/TBtu (7.0E-
                                      lb/GWh).                lb/GWh).                1 lb/GWh).             lb/GWh).               3 lb/GWh).
Arsenic, As........................  1.1E0 lb/TBtu (2.0E-2   1.5E0 lb/TBtu (2.0E-2   2.8E0 lb/TBtu (3.0E-2  4.3E0 lb/TBtu (8.0E-2  3.0E-1 lb/TBtu (5.0E-
                                      lb/GWh).                lb/GWh).                lb/GWh).               lb/GWh).               3 lb/GWh).
Beryllium, Be......................  2.0E-1 lb/TBtu (2.0E-3  1.0E-1 lb/TBtu (1.0E-3  2.0E-1 lb/TBtu (2.0E-  6.0E-1 lb/TBtu (3.0E-  6.0E-2 lb/TBtu (5.0E-
                                      lb/GWh).                lb/GWh).                3 lb/GWh).             3 lb/GWh).             4 lb/GWh).
Cadmium, Cd........................  3.0E-1 lb/TBtu (3.0E-3  1.5E-1 lb/TBtu (2.0E-3  3.0E-1 lb/TBtu 2.0E-3  3.0E-1 lb/TBtu (3.0E-  3.0E-1 lb/TBtu (4.0E-
                                      lb/GWh).                lb/GWh).                lb/GWh).               3 lb/GWh).             3 lb/GWh).
Chromium, Cr.......................  2.8E0 lb/TBtu (3.0E-2   2.9E0 lb/TBtu (3.0E-2   5.5E0 lb/TBtu (6.0E-2  3.1E+1 lb/TBtu (3.0E-  8.0E-1 lb/TBtu (2.0E-
                                      lb/GWh).                lb/GWh).                lb/GWh).               1 lb/GWh).             2 lb/GWh).
Cobalt, Co.........................  8.0E-1 lb/TBtu (8.0E-3  1.2E0 lb/TBtu (2.0E-2   2.1E+1 lb/TBtu (3.0E-  1.1E+2 lb/TBtu (1.4E0  1.1E0 lb/TBtu (2.0E-2
                                      lb/GWh).                lb/GWh).                1 lb/GWh).             lb/GWh).               lb/GWh).

[[Page 23400]]

 
Lead, Pb...........................  1.2E0 lb/TBtu (2.0E-2   1.9E+2 lb/TBtu (1.8E0   8.1E0 lb/TBtu (8.0E-2  4.9E0 lb/TBtu (8.0E-2  8.0E-1 lb/TBtu (2.0E-
                                      lb/GWh).                lb/GWh).                lb/GWh).               lb/GWh).               2 lb/GWh).
Manganese, Mn......................  4.0E0 lb/TBtu (5.0E-2   2.5E0 lb/TBtu (3.0E-2   2.2E+1 lb/TBtu (3.0E-  2.0E+1 lb/TBtu (3.0E-  2.3E0 lb/TBtu (4.0E-2
                                      lb/GWh.                 lb/GWh).                1 lb/GWh).             1 lb/GWh).             lb/GWh).
Mercury, Hg........................  NA....................  NA....................  2.0E-1 lb/TBtu (2.0E-  4.0E-2 lb/TBtu (4.0E-  NA.
                                                                                      3 lb/GWh).             4 lb/GWh).
Nickel, Ni.........................  3.5E0 lb/TBtu (4.0E-2   6.5E0 lb/TBtu (7.0E-2   1.1E+2 lb/TBtu (1.1E0  4.7E+2 lb/TBtu (4.1E0  9.0E0 lb/TBtu (2.0E-1
                                      lb/GWh).                lb/GWh).                lb/GWh).               lb/GWh).               lb/GWh).
Selenium, Se.......................  5.0E0 lb/TBtu (6.0E-2   2.2E+1 lb/TBtu (3.0E-1  3.3E0 lb/TBtu (4.0E-2  9.8E0 lb/TBtu (2.0E-1  1.2E0 lb/TBtu (2.0E-2
                                      lb/GWh).                lb/GWh).                lb/GWh).               lb/GWh).               lb/GWh).
--------------------------------------------------------------------------------------------------------------------------------------------------------
NA = Not applicable.
\a\ Includes Hg.

    The output-format values for the antimony and beryllium emission 
limits for existing solid oil-derived fuel-fired units were incorrect 
as published in the preamble to the final rule (i.e., the incorrect 
``8.0E-3 lb/GWh'' instead of the correct ``7.0E-3 lb/GWh'' for antimony 
and the incorrect ``6.0E-4 lb/GWh'' instead of the correct ``5.0E-4 lb/
GWh'' for beryllium). In addition, the format of the input- and output-
based lead emissions limits for existing IGCC EGUs was incorrect as 
published in the preamble to the final rule (i.e., the incorrect 
``1.9E+2 lb/MMBtu or 1.8E0 lb/MWh'' instead of the correct ``1.9E+2 lb/
TBtu or 1.8E0 lb/GWh''). In each case, the correct values are indicated 
in the spreadsheets found in docket entry EPA-HQ-OAR-2009-0234-20132 
and the published values were transcription errors. This same 
correction is made to the regulatory text later in this document.
    2. On page 9401, column 1, first full paragraph, the fourth 
sentence is corrected to read as follows: ``This subcategory applies 
only to oil-fired EGUs that act as peaking units, as they generally 
address reliability issues.''
    We are revising this sentence because the original sentence in the 
preamble to the final rule stated: ``This subcategory applies only to 
oil-fired EGUs that operate on oil alone and act as peaking units, as 
they generally address reliability issues.'' (emphasis added). The 
italicized language is not consistent with the regulatory definition of 
``oil-fired EGU'' or the definition of ``limited-use liquid oil-fired 
subcategory'' because it incorrectly indicates that the subcategory 
applies only to oil-fired EGUs that operate on oil alone. See 40 CFR 
63.10042.
    3. The definition of ``Boiler operating day'' in Sec.  60.41Da 
Definitions, the date ``February 29, 2005'' is corrected to read 
``March 1, 2005'' because there was no February 29 in 2005.
    4. Section 60.49Da(a)(4)(i) is revised to correct the typographical 
error related to the incorrect cross reference to section 60.51a(d) 
which does not exist. The correct cross reference is to section 
60.51Da(d).
    5. Sections 63.9982(a)(1) and (a)(2) are revised to include the 
``Sec. '' symbol which was inadvertently left off of the references to 
section 63.10042 (i.e., ``63.10042'' vs. the correct ``Sec.  
63.10042''.
    6. Section 63.9982(d) is revised to correct the typographical error 
which left out the word ``in'' from the phrase ``* * * change in 
process * * *''
    7. Section 63.9985(a)(2) is revised to remove the words ``or 
modification.'' We erroneously included this language in the final rule 
definition of a new source for purposes of the NESHAP. The language 
included in the final rule comes from the CAA section 111 statutory 
definition for ``new source,'' instead of the CAA section 112 
definition of ``new source.'' CAA section 112 does not include 
``modified'' sources in the definition of new sources, and, thus, the 
inclusion of such sources in the definition was an inadvertent drafting 
error.
    8. Section 63.9991(c) is revised to remove the term ``coal-fired'' 
from the phrase ``coal-fired EGU.'' This section expressly references 
Tables 1 and 2 of this subpart and those tables include alterative 
sulfur dioxide (SO2) limits for all EGUs meeting the 
requirements of section 63.9991(c), not just coal-fired EGUs. Thus, the 
provision as written in the final rule was incorrectly limited to coal-
fired EGUs.
    9. Section 63.10000(c)(1) is revised to include integrated 
gasification combined cycle (IGCC) EGUs among the subcategories listed. 
Section 63.10000(c) addresses initial performance testing. IGCC EGUs 
are included in the requirements of section 63.10000(c)(1)(i) (which 
deals with initial performance testing for purposes of determining low 
emitting EGU (LEE) status) and, thus, the omission of IGCC EGUs from 
the introductory language in section 63.10000(c)(1) was an inadvertent 
error.
    10. Section 63.10000(c)(1)(i)(B) is revised to correct a 
typographical error (``* * * solid oil-derived fuel-fired * * *'' 
rather than the incorrect ``* * * solid oil-fired fuel-fired * * *'').
    11. Section 63.10000(c)(2)(iv) is revised to correct a 
typographical error and include ``you'' in the phrase ``* * * but you 
must * * *''
    12. Section 63.10000(d)(5)(i) is revised to correct the 
typographical error of including the incorrect term ``CEMS'' rather 
than the correct term ``CMS.'' The text of sections 63.10000(d)(2)(i), 
(3), and (4) all refer to the broader ``CMS'' (which includes both 
continuous parameter monitoring system (CPMS) and continuous emission 
monitoring system (CEMS)). Thus, use of the narrower CEMS in section 
63.10000(d)(5)(i) was an inadvertent error. Further, the term ``CPMS'' 
in the last sentence of the section is corrected to read ``PM CPMS'' 
consistent with section 63.10010(h), which section is referenced in 
section 63.10000(d)(5)(i) and specifically addresses PM CPMS.
    13. Section 63.10000(d)(5)(iv) is revised to use language 
consistent with section 63.8(d) (changing ``ongoing data quality 
assurance procedures'' to ``quality control program''), as section 63.8 
is cited in this section. The title of section 63.8(d) is ``quality 
control program'' and the phrase ``ongoing data quality assurance 
procedures'' does not appear in that provision.
    14. Section 63.10000(f) is revised to correct a typographical error 
by replacing ``distributions system'' with the correct ``distribution 
system.''
    15. Section 63.10005(b)(2) is revised to correct a typographical 
error by changing ``* * * valid data CMS data * * *'' to ``valid CMS 
data''.
    16. Section 63.10005(d)(1) is revised to correct a typographical 
error (the correct ``* * * Table 1 or 2 to this * * *'' rather than the 
incorrect ``* * * Table 1 or 2 of this * * *'' in two places).

[[Page 23401]]

    17. Section 63.10005(d)(4)(ii) is revised to correct the 
typographical error associated with the use of ``corresponding'' rather 
than the correct word ``corresponds.''
    18. Sections 63.10005(h)(3)(iii)(C)(1) and (2) are revised to 
correct the typographical errors associated with the conversion factors 
from million British thermal units per hour (MMBtu/hr) to trillion Btu/
hr (TBtu/hr) (i.e., the correct 10-6 rather than the 
incorrect 10\6\) and from megawatts (MW) to gigawatts (GW) (i.e., the 
correct 10-3 rather than the incorrect 10\3\). The exponents 
as published are technically incorrect and the conversions would not 
work as published.
    19. Section 63.10006(a) is revised to correct a typographical 
error. Specifically, we inadvertently omitted the word ``fired'' from 
the phrase ``* * * solid oil-derived fuel- and * * *'' The phrase 
should read ``* * * solid oil-derived fuel-fired and * * *''
    20. Section 63.10007(c) is revised to correct the typographical 
error associated with the incorrect cross reference to the non-existent 
section 63.10011(b)(5). The correct cross reference is to section 
63.10011(b).
    21. Section 63.10009(g) is revised to correct the typographical 
error related to the incorrect cross reference to sections 
63.10009(f)(1) through (3). Section 63.10009(g) deals with determining 
weighted average emission rates, but section 63.10009(f) deals with 
demonstrating eligibility for an emissions averaging group and is, 
thus, an incorrect cross reference. The correct cross reference is to 
sections 63.10009(g)(1) through (2), which sections provide specific 
direction on the manner in which sources establish weighted average 
emission rates.
    22. Section 63.10009(j)(2)(i)(A) is revised to correct the 
typographical error related to the incorrect cross reference to section 
63.10009(h)(1), which does not exist. The correct cross reference is to 
section 63.10009(j)(1).
    23. Sections 63.10010(a)(6)(iii) and (iv) are revised to correct 
the typographical errors related to the incorrect cross references to 
sections 63.10010(a)(5)(iii)(B) and (a)(5)(iii)(C), which do not exist. 
The correct cross references are to sections 63.10010(a)(6)(ii) and 
(iii), respectively.
    24. Sections 63.10010(g), 63.10011(c)(1), 63.10021(b), and 
63.10022(a)(1) are revised to correct the inadvertent omission of the 
alternate 90-day averaging period. The provisions as included in the 
final rule only referred to the 30-day averaging periods that are 
generally utilized for determining compliance with the final standards; 
however, as indicated in section 63.10009(a)(2), sources are also 
authorized to use the alternate 90-day averaging period for certain 
standards when emissions averaging is employed at a facility.
    25. Section 63.10020(d) is revised to correct a typographical error 
by replacing ``of'' with ``from'' in the phrase ``* * * deviation from 
the * * *''
    26. Section 63.10030(e)(7)(i) is revised to correct the 
typographical error related to the incorrect cross reference to section 
63.10006(i). Section 63.10006(i) addresses the tune-up requirement, but 
section 63.10030(e)(7)(i) concerns LEE requirements, not tune-up 
requirements. The correct cross reference is to section 63.10006(b), 
which addresses the reduced performance (i.e., stack) testing for LEE, 
which allows a source to test every 3 years as discussed in section 
63.10030(e)(7)(i).
    27. Section 63.10031(c)(4) is revised to correct an incorrect 
statement. The final rule does not require annual inspections; thus, 
the ``annual'' has been replaced with ``every 36 (or 48) months'' to be 
consistent with other rule text.
    28. The definitions of ``Non-mercury (Hg) HAP metals'' and ``Oil'' 
in section 63.10042 are revised to correct the typographical error that 
did not separate the two definitions in the published rule.
    29. Table 2 to Subpart UUUUU of Part 63 is revised to correct the 
typographical errors related to the lack of a superscript for footnotes 
(``\2\'') denoting ``gross electric output'' for filterable particulate 
matter emissions from ``2. Coal-fired unit low rank virgin coal,'' ``3. 
IGCC,'' ``4. Liquid oil-fired unit--continental (excluding limited-use 
liquid oil-fired subcategory units),'' ``Liquid oil-fired unit--non-
continental (excluding limited-use liquid oil-fired subcategory 
units),'' and ``6. Solid oil-derived fuel-fired unit.''
    In addition, the format of the input- and output-based lead 
emissions limits for ``3. IGCC unit'' was incorrect as published (i.e., 
the incorrect ``1.9E+2 lb/MMBtu or 1.8E0 lb/MWh'' instead of the 
correct ``1.9E+2 lb/TBtu or 1.8E0 lb/GWh''). Further, the output-format 
values for the antimony and beryllium emission limits for ``6. Solid 
oil-derived fuel-fired unit'' were incorrect as published (i.e., the 
incorrect ``8.0E-3 lb/GWh'' instead of the correct ``7.0E-3 lb/GWh'' 
for antimony and the incorrect ``6.0E-4 lb/GWh'' instead of the correct 
``5.0E-4 lb/GWh'' for beryllium). In each case, the correct values are 
indicated in the spreadsheets found in docket entry EPA-HQ-OAR-2009-
0234-20132 and the published values are transcription errors.
    30. For the reasons described in Paragraph 24 above, Table 7 to 
Subpart UUUUU of Part 63 is revised to address the inadvertent omission 
of the alternate 90-day averaging period that is available.
    31. For the reasons described in Paragraph 24 above, Paragraphs 
6.2.1.4 and 6.2.2.3 to Appendix A to Subpart UUUUU of Part 63 are 
revised to address the inadvertent omission of the alternate 90-day 
averaging period that is available.
    32. Paragraph 7.2.4 to Appendix A to Subpart UUUUU of Part 63 is 
revised to correct the typographical error related to the incorrect 
cross reference to paragraphs 7.1.10.1 through 7.1.10.7; these 
paragraphs do not exist, however. The correct cross reference is 
paragraphs 7.1.9.1 through 7.1.9.7.
    33. Paragraph 7.2.5.3.4 to Appendix A to Subpart UUUUU of Part 63 
is revised to correct the typographical error related to the incorrect 
cross reference to paragraph 7.1.90.1; this paragraph does not exist, 
however. The correct cross reference is paragraph 7.1.9.1.

Statutory and Executive Order Reviews

    Under Executive Order (EO) 12866, Regulatory Planning and Review 
(58 FR 51735, October 4, 1993), this action is not a ``significant 
regulatory action'' and is therefore not subject to review by the 
Office of Management and Budget (OMB). This action is not a ``major 
rule'' as defined by 5 U.S.C. 804(2). The technical corrections do not 
impose an information collection burden under the provisions of the 
Paperwork Reduction Act of 1995 (44 U.S.C. 3501 et seq.).
    Because EPA has made a ``good cause'' finding that this action is 
not subject to notice and comment requirements under the APA or any 
other statute, it is not subject to the regulatory flexibility 
provisions of the Regulatory Flexibility Act (5 U.S.C. 601 et seq.), or 
to sections 202 and 205 of the Unfunded Mandates Reform Act of 1995 
(UMRA) (Pub. L. 104-4). In addition, this action does not significantly 
or uniquely affect small governments or impose a significant 
intergovernmental mandate, as described in sections 203 and 204 of the 
UMRA.
    The corrections do not have substantial direct effects on the 
states, or on the relationship between the national government and the 
states, or on the distribution of power and responsibilities among the 
various levels of government, as specified in EO 13132, Federalism (64 
FR 43255, August 10, 1999).

[[Page 23402]]

    This action also does not significantly or uniquely affect the 
communities of tribal governments, as specified by EO 13175, 
Consultation and Coordination with Indian Tribal Governments (65 FR 
67249, November 9, 2000). The technical corrections also are not 
subject to EO 13045, Protection of Children from Environmental Health 
and Safety Risks (62 FR 19885, April 23, 1997) because this action is 
not economically significant.
    The corrections are not subject to EO 13211, Actions Concerning 
Regulations That Significantly Affect Energy Supply, Distribution, or 
Use (66 FR 28355, May 22, 2001) because this action is not a 
significant regulatory action under EO 12866.
    The corrections do not involve changes to the technical standards 
related to test methods or monitoring methods; thus, the requirements 
of section 12(d) of the National Technology Transfer and Advancement 
Act of 1995 (15 U.S.C. 272) do not apply.
    The corrections also do not involve special consideration of 
environmental justice-related issues as required by EO 12898, Federal 
Actions to Address Environmental Justice in Minority Populations and 
Low-Income Populations (59 FR 7629, February 16, 1994).
    The Congressional Review Act, 5 U.S.C. 801 et seq., as added by the 
Small Business Regulatory Enforcement Fairness Act of 1996 (SBREFA), 
generally provides that before a rule may take effect, the agency 
promulgating the rule must submit a rule report, which includes a copy 
of the rule, to each House of the Congress and to the Comptroller 
General of the U.S. The EPA submitted a report containing the final 
action and other required information to the U.S. Senate, the U.S. 
House of Representatives, and the Comptroller General of the U.S. This 
action is not a ``major rule'' as defined by 5 U.S.C. 804(2). The final 
rule will be effective on April 16, 2012.
    The EPA's compliance with the above statutes and EOs for the 
underlying rule is discussed in the February 16, 2012, Federal Register 
document containing ``National Emission Standards for Hazardous Air 
Pollutants from Coal- and Oil-fired Electric Utility Steam Generating 
Units and Standards of Performance for Fossil-Fuel-Fired Electric 
Utility, Industrial-Commercial-Institutional, and Small Industrial-
Commercial-Institutional Steam Generating Units.''

List of Subjects

40 CFR Part 60

    Environmental protection, Administrative practice and procedure, 
Air pollution control, Incorporation by reference, Intergovernmental 
relations, Reporting and recordkeeping requirements.

40 CFR Part 63

    Environmental protection, Administrative practice and procedure, 
Air pollution control, Hazardous substances, Incorporation by 
reference, Intergovernmental relations, Reporting and recordkeeping 
requirements.

    Dated: March 27, 2012.
Lisa P. Jackson,
Administrator.

    Accordingly, title 40, chapter I, of the Code of the Federal 
Regulations is amended by making the following correcting amendments:

PART 60--[AMENDED]

0
1. The authority citation for part 60 continues to read as follows:

    Authority:  42 U.S.C. 7401 et seq.


0
2. In Sec.  60.41Da, revise the definition of ``Boiler operating day'' 
to read as follows:


Sec.  60.41Da  Definitions.

* * * * *
    Boiler operating day for units constructed, reconstructed, or 
modified before March 1, 2005, means a 24-hour period during which 
fossil fuel is combusted in a steam-generating unit for the entire 24 
hours. For units constructed, reconstructed, or modified after February 
28, 2005, boiler operating day means a 24-hour period between 12 
midnight and the following midnight during which any fuel is combusted 
at any time in the steam-generating unit. It is not necessary for fuel 
to be combusted the entire 24-hour period.
* * * * *

0
3. Revise Sec.  60.49Da(a)(4)(i) to read as follows:


Sec.  60.49Da  Emission monitoring.

    (a) * * *
    (4) * * *
    (i) The affected facility combusts only gaseous fuels and/or liquid 
fuels (excluding residue oil) with a potential SO2 emissions 
rate no greater than 26 ng/J (0.060 lb/MMBtu), and the unit operates 
according to a written site-specific monitoring plan approved by the 
permitting authority. This monitoring plan must include procedures and 
criteria for establishing and monitoring specific parameters for the 
affected facility indicative of compliance with the opacity standard. 
For testing performed as part of this site-specific monitoring plan, 
the permitting authority may require as an alternative to the 
notification and reporting requirements specified in Sec. Sec.  60.8 
and 60.11 that the owner or operator submit any deviations with the 
excess emissions report required under Sec.  60.51Da(d).
* * * * *

PART 63--[AMENDED]

0
4. The authority citation for 40 CFR Part 63 continues to read as 
follows:

    Authority:  42 U.S.C. 7401, et seq.


0
5. Revise Sec.  63.9982(a)(1), (a)(2), and (d) to read as follows:


Sec.  60.9982  What is the affected source of this subpart?

    (a) * * *
    (1) The affected source of this subpart is the collection of all 
existing coal- or oil-fired EGUs, as defined in Sec.  63.10042, within 
a subcategory.
    (2) The affected source of this subpart is each new or 
reconstructed coal- or oil-fired EGU as defined in Sec.  63.10042.
* * * * *
    (d) An EGU is existing if it is not new or reconstructed. An 
existing electric steam generating unit that meets the applicability 
requirements after the effective date of this final rule due to a 
change in process (e.g., fuel or utilization) is considered to be an 
existing source under this subpart.
* * * * *

0
6. Revise Sec.  63.9985(a)(2) to read as follows:


Sec.  63.9985  What is a new EGU?

    (a) * * *
    (2) An EGU that commenced reconstruction after May 3, 2011.
* * * * *

0
7. In Sec.  63.9991, revise paragraph(c) introductory text to read as 
follows:


Sec.  63.9991  What emission limitations, work practice standards, and 
operating limits must I meet?

* * * * *
    (c) You may use the alternate SO2 limit in Tables 1 and 
2 to this subpart only if your EGU:
* * * * *

0
8. In Sec.  63.10000, revise paragraphs(c)(1) introductory text, 
(c)(1)(i)(B), (c)(2)(iv), (d)(5)(i), (d)(5)(iv) and (f) to read as 
follows:


Sec.  63.10000  What are my general requirements for complying with 
this subpart?

* * * * *

[[Page 23403]]

    (c)(1) For coal-fired units, IGCC units, and solid oil-derived 
fuel-fired units, initial performance testing is required for all 
pollutants, to demonstrate compliance with the applicable emission 
limits.
    (i) * * *
    (B) You may not pursue the LEE option for Hg if your coal-fired, 
solid oil-derived fuel-fired EGU or IGCC EGU is new.
* * * * *
    (2) * * *
    (iv) If your unit qualifies as a limited-use liquid oil-fired as 
defined in Sec.  63.10042, then you are not subject to the emission 
limits in Tables 1 and 2, but you must comply with the performance 
tune-up work practice requirements in Table 3.
* * * * *
    (d) * * *
    (5) * * *
    (i) Installation of the CMS or sorbent trap monitoring system 
sampling probe or other interface at a measurement location relative to 
each affected process unit such that the measurement is representative 
of control of the exhaust emissions (e.g., on or downstream of the last 
control device). See Sec.  63.10010(a) for further details. For PM CPMS 
installations, follow the procedures in Sec.  63.10010(h).
* * * * *
    (iv) Performance evaluation procedures and acceptance criteria 
(e.g., calibrations), including the quality control program in 
accordance with the general requirements of Sec.  63.8(d).
* * * * *
    (f) You are subject to the requirements of this subpart for at 
least 6 months following the last date you met the definition of an EGU 
subject to this subpart (e.g., 6 months after a cogeneration unit 
provided more than one third of its potential electrical output 
capacity and more than 25 megawatts electrical output to any power 
distribution system for sale). You may opt to remain subject to the 
provisions of this subpart beyond 6 months after the last date you met 
the definition of an EGU subject to this subpart, unless you are a 
solid waste incineration unit subject to standards under CAA section 
129 (e.g., 40 CFR Part 60, Subpart CCCC (New Source Performance 
Standards (NSPS) for Commercial and Industrial Solid Waste Incineration 
Units, or Subpart DDDD (Emissions Guidelines (EG) for Existing 
Commercial and Industrial Solid Waste Incineration Units). 
Notwithstanding the provisions of this subpart, an EGU that starts 
combusting solid waste is immediately subject to standards under CAA 
section 129 and the EGU remains subject to those standards until the 
EGU no longer meets the definition of a solid waste incineration unit 
consistent with the provisions of the applicable CAA section 129 
standards.
* * * * *

0
9. Revise Sec.  63.10005(b)(2), (d)(1), (d)(4)(ii), and 
(h)(3)(iii)(C)(1) and (2) to read as follows:


Sec.  63.10005  What are my initial compliance requirements and by what 
date must I conduct them?

* * * * *
    (b) * * *
    (2) For a performance test based on data from a certified CEMS or 
sorbent trap monitoring system, the test consists of all valid CMS data 
recorded in the 30 boiler operating days immediately preceding that 
date;
* * * * *
    (d) * * *
    (1) For an affected coal-fired, solid oil-derived fuel-fired, or 
liquid oil-fired EGU, you may demonstrate initial compliance with the 
applicable SO2, HCl, or HF emissions limit in Table 1 or 2 
to this subpart through use of an SO2, HCl, or HF CEMS 
installed and operated in accordance with Part 75 of this chapter or 
Appendix B to this subpart, as applicable. You may also demonstrate 
compliance with a filterable PM emission limit in Table 1 or 2 to this 
subpart through use of a PM CEMS installed, certified, and operated in 
accordance with Sec.  63.10010(i). Initial compliance is achieved if 
the arithmetic average of 30-boiler operating days of quality-assured 
CEMS data, expressed in units of the standard (see Sec.  63.10007(e)), 
meets the applicable SO2, PM, HCl, or HF emissions limit in 
Table 1 or 2 to this subpart. Use Equation 19-19 of Method 19 in 
appendix A-7 to Part 60 of this chapter to calculate the 30-boiler 
operating day average emissions rate. (Note: For this calculation, the 
term Ehj in Equation 19-19 must be in the same units of 
measure as the applicable HCl or HF emission limit in Table 1 or 2 to 
this subpart).
* * * * *
    (4) * * *
    (i) * * *
    (ii) You must demonstrate continuous compliance with the CMS site-
specific operating limit that corresponds to the results of the 
performance test demonstrating compliance with the HCl or HF emissions 
limit.
* * * * *
    (h) * * *
    (3) * * *
    (iii) * * *
    (C) * * *
    (1) Multiply the average lb/TBtu Hg emission rate (determined 
according to paragraph (h)(3)(iii)(A) of this section) by the maximum 
potential annual heat input to the unit (TBtu), which is equal to the 
maximum rated unit heat input (TBtu/hr) times 8,760 hours. If the 
maximum rated heat input value is expressed in units of MMBtu/hr, 
multiply it by 10 -6 to convert it to TBtu/hr; or
    (2) Multiply the average lb/GWh Hg emission rate (determined 
according to paragraph (h)(3)(iii)(B) of this section) by the maximum 
potential annual electricity generation (GWh), which is equal to the 
maximum rated electrical output of the unit (GW) times 8,760 hours. If 
the maximum rated electrical output value is expressed in units of MW, 
multiply it by 10 -3 to convert it to GW; or
* * * * *

0
10. Revise Sec.  63.10006(a) to read as follows:


Sec.  63.10006  When must I conduct subsequent performance tests or 
tune-ups?

    (a) For liquid oil-fired, solid oil-derived fuel-fired and coal-
fired EGUs and IGCC units using PM CPMS to monitor continuous 
performance with an applicable emission limit as provided for under 
Sec.  63.10000(c), you must conduct all applicable performance tests 
according to Table 5 to this subpart and Sec.  63.10007 at least every 
year.
* * * * *

0
11. Revise Sec.  63.10007(c) to read as follows:


Sec.  63.10007  What methods and other procedures must I use for the 
performance tests?

* * * * *
    (c) If you choose to comply with the filterable PM emission limit 
and demonstrate continuous performance using a PM CPMS for an 
applicable emission limit as provided for in Sec.  63.10000(c), you 
must also establish an operating limit according to Sec.  63.10011(b) 
and Tables 4 and 6 to this subpart. Should you desire to have operating 
limits that correspond to loads other than maximum normal operating 
load, you must conduct testing at those other loads to determine the 
additional operating limits.
* * * * *

0
12. In Sec.  63.10009, revise paragraphs (g) introductory text and 
(j)(2)(i)(A) to read as follows:


Sec.  63.10009  May I use emissions averaging to comply with this 
subpart?

* * * * *

[[Page 23404]]

    (g) You must determine the weighted average emissions rate in units 
of the applicable emissions limit on a 30 day rolling average (90 day 
rolling average for Hg) basis according to paragraphs (g)(1) through 
(2) of this section. The first averaging period begins on 30 (or 90 for 
Hg) days after February 16, 2015 or the date that you begin emissions 
averaging, whichever is earlier.
* * * * *
    (j) * * *
    (2) * * *
    (i) * * *
    (A) Whether the content of the plan includes all of the information 
specified in paragraph (j)(1) of this section; and
* * * * *

0
13. In Sec.  63.10010, revise paragraphs (a)(6)(iii), (a)(6)(iv) and 
(g) to read as follows:


Sec.  63.10010  What are my monitoring, installation, operation, and 
maintenance requirements?

    (a) * * *
    (6) * * *
    (iii) Sum the products determined under paragraph (a)(6)(ii) of 
this section; and
    (iv) Divide the result obtained in paragraph (a)(6)(iii) of this 
section by the total hourly stack gas flow rate for the unit, summed 
across all of the stacks or ducts.
* * * * *
    (g) If you use a Hg CEMS or a sorbent trap monitoring system, you 
must install, certify, operate, maintain and quality-assure the data 
from the monitoring system in accordance with appendix A to this 
subpart. You must calculate and record a 30- (or, if alternate 
emissions averaging is used, 90-) boiler operating day rolling average 
Hg emission rate, in units of the standard, updated after each new 
boiler operating day. Each 30- (or, if alternate emissions averaging is 
used, 90-) boiler operating day rolling average emission rate, 
calculated according to section 6.2 of appendix A to the subpart, is 
the average of all of the valid hourly Hg emission rates in the 
preceding 30- (or, if alternate emissions averaging is used, a 90-) 
boiler operating days. Section 7.1.4.3 of appendix A to this subpart 
explains how to reduce sorbent trap monitoring system data to an hourly 
basis.
* * * * *

0
14. Revise Sec.  63.10011(c)(1) to read as follows:


Sec.  63.10011  How do I demonstrate initial compliance with the 
emissions limits and work practice standards?

* * * * *
    (c)(1) If you use CEMS or sorbent trap monitoring systems to 
measure a HAP (e.g., Hg or HCl) directly, the first 30-boiler operating 
day (or, if alternate emissions averaging is used for Hg, the 90-boiler 
operating day) rolling average emission rate obtained with certified 
CEMS after the applicable date in Sec.  63.9984 (or, if applicable, 
prior to that date, as described in Sec.  63.10005(b)(2)), expressed in 
units of the standard, is the initial performance test. Initial 
compliance is demonstrated if the results of the performance test meet 
the applicable emission limit in Table 1 or 2 to this subpart.
* * * * *

0
15. Revise Sec.  63.10020(d) to read as follows:


Sec.  63.10020  How do I monitor and collect data to demonstrate 
continuous compliance?

* * * * *
    (d) Except for periods of monitoring system malfunctions or 
monitoring system out-of-control periods, repairs associated with 
monitoring system malfunctions or monitoring system out-of-control 
periods, and required monitoring system quality assurance or quality 
control activities including, as applicable, calibration checks and 
required zero and span adjustments), failure to collect required data 
is a deviation from the monitoring requirements.
* * * * *

0
16. Revise Sec.  63.10021(b) to read as follows:


Sec.  63.10021  How do I demonstrate continuous compliance with the 
emission limitations, operating limits, and work practice standards?

* * * * *
    (b) Except as otherwise provided in Sec.  63.10020(c), if you use a 
CEMS to measure SO2, PM, HCl, HF, or Hg emissions, or using 
a sorbent trap monitoring system to measure Hg emissions, you must 
demonstrate continuous compliance by using all quality-assured hourly 
data recorded by the CEMS (or sorbent trap monitoring system) and the 
other required monitoring systems (e.g., flow rate, CO2, 
O2, or moisture systems) to calculate the arithmetic average 
emissions rate in units of the standard on a continuous 30-boiler 
operating day (or, if alternate emissions averaging is used for Hg, 90-
boiler operating day) rolling average basis, updated at the end of each 
new boiler operating day. Use Equation 8 to determine the 30- (or, if 
applicable, 90-) boiler operating day rolling average.
[GRAPHIC] [TIFF OMITTED] TR19AP12.002

Where:

Heri is the hourly emissions rate for hour i and n is the 
number of hourly emissions rate values collected over 30- (or, if 
applicable, 90-) boiler operating days.
* * * * *

0
17. Revise Sec.  63.10022(a)(1) to read as follows:


Sec.  63.10022  How do I demonstrate continuous compliance under the 
emissions averaging provision?

    (a) * * *
    (1) For each 30- (or 90-) day rolling average period, demonstrate 
compliance with the average weighted emissions limit for the existing 
units participating in the emissions averaging option as determined in 
Sec.  63.10009(f) and (g);
* * * * *

0
18. Revise Sec.  63.10030(e)(7)(i) to read as follows:


Sec.  63.10030  What notifications must I submit and when?

* * * * *
    (e) * * *
    (7) * * *
    (i) A summary of the results of the annual performance tests and 
documentation of any operating limits that were reestablished during 
this test, if applicable. If you are conducting stack tests once every 
3 years consistent with Sec.  63.10006(b), the date of the last three 
stack tests, a comparison of the emission level you achieved in the 
last three stack tests to the 50 percent emission limit threshold 
required in Sec.  63.10006(i), and a statement as to whether there have 
been any operational changes since the last stack test that could 
increase emissions.
* * * * *

0
19. Revise Sec.  63.10031(c)(4) to read as follows:

[[Page 23405]]

Sec.  63.10031  What reports must I submit and when?

* * * * *
    (c) * * *
    (4) Include the date of the most recent tune-up for each unit 
subject to the requirement to conduct a performance tune-up according 
to Sec.  63.10021(e). Include the date of the most recent burner 
inspection if it was not done every 36 (or 48) months and was delayed 
until the next scheduled unit shutdown.
* * * * *

0
20. In Sec.  63.10042, revise the definition ``Non-mercury (Hg) HAP 
metals'' and add the definition ``Oil'' to read as follows:


Sec.  63.10042  What definitions apply to this subpart?

* * * * *
    Non-mercury (Hg) HAP metals means Antimony (Sb), Arsenic (As), 
Beryllium (Be), Cadmium (Cd), Chromium (Cr), Cobalt (Co), Lead (Pb), 
Manganese (Mn), Nickel (Ni), and Selenium (Se).
    Oil means crude oil or petroleum or a fuel derived from crude oil 
or petroleum, including distillate and residual oil, solid oil-derived 
fuel (e.g., petroleum coke) and gases derived from solid oil-derived 
fuels (not meeting the definition of natural gas).
* * * * *

0
22. Revise table 2 and table 7 to Subpart UUUUU of Part 63 to read as 
follows:

Tables to Subpart UUUUU of Part 63

* * * * *

                     Table 2 to Subpart UUUUU of Part 63--Emission Limits for Existing EGUs
        [As stated in Sec.   63.9991, you must comply with the following applicable emission limits] \1\
----------------------------------------------------------------------------------------------------------------
                                                                                               Using these
                                                                                             requirements, as
                                                                                            appropriate (e.g.,
                                                                   You must meet the        specified sampling
If your EGU is in this subcategory .     For the following        following emission        volume or test run
                 . .                      pollutants . . .     limits and work practice       duration) and
                                                                    standards . . .        limitations with the
                                                                                         test methods in Table 5
                                                                                                  . . .
----------------------------------------------------------------------------------------------------------------
1. Coal-fired unit not low rank       a. Filterable            3.0E-2 lb/MMBtu or 3.0E-  Collect a minimum of 1
 virgin coal.                          particulate matter       1 lb/MWh.\2\              dscm per run.
                                       (PM).
                                      OR                       OR                        .......................
                                      Total non-Hg HAP metals  5.0E-5 lb/MMBtu or 5.0E-  Collect a minimum of 1
                                                                1 lb/GWh.                 dscm per run.
                                      OR                       OR                        .......................
                                      Individual HAP metals:   ........................  Collect a minimum of 3
                                                                                          dscm per run.
                                      Antimony (Sb)..........  8.0E-1 lb/TBtu or 8.0E-3
                                                                lb/GWh.
                                      Arsenic (As)...........  1.1E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Beryllium (Be).........  2.0E-1 lb/TBtu or 2.0E-3
                                                                lb/GWh.
                                      Cadmium (Cd)...........  3.0E-1 lb/TBtu or 3.0E-3
                                                                lb/GWh.
                                      Chromium (Cr)..........  2.8E0 lb/TBtu or 3.0E-2
                                                                lb/GWh.
                                      Cobalt (Co)............  8.0E-1 lb/TBtu or 8.0E-3
                                                                lb/GWh.
                                      Lead (Pb)..............  1.2E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Manganese (Mn).........  4.0E0 lb/TBtu or 5.0E-2
                                                                lb/GWh.
                                      Nickel (Ni)............  3.5E0 lb/TBtu or 4.0E-2
                                                                lb/GWh.
                                      Selenium (Se)..........  5.0E0 lb/TBtu or 6.0E-2
                                                                lb/GWh.
                                      b. Hydrogen chloride     2.0E-3 lb/MMBtu or 2.0E-  For Method 26A, collect
                                       (HCl).                   2 lb/MWh.                 a minimum of 0.75 dscm
                                                                                          per run; for Method
                                                                                          26, collect a minimum
                                                                                          of 120 liters per run.
                                                                                         For ASTM D6348-03 \3\
                                                                                          or Method 320, sample
                                                                                          for a minimum of 1
                                                                                          hour.
                                      OR                       ........................  .......................
                                      Sulfur dioxide (SO2)     2.0E-1 lb/MMBtu or 1.5E0  SO2 CEMS.
                                       \4\.                     lb/MWh.
                                      c. Mercury (Hg)........  1.2E0 lb/TBtu or 1.3E-2   LEE Testing for 30 days
                                                                lb/GWh                    with 10 days maximum
                                                                                          per Method 30B run or
                                                                                          Hg CEMS or sorbent
                                                                                          trap monitoring system
                                                                                          only.
2. Coal-fired unit low rank virgin    a. Filterable            3.0E-2 lb/MMBtu or 3.0E-  Collect a minimum of 1
 coal.                                 particulate matter       1 lb/MWh.\2\              dscm per run.
                                       (PM).
                                      OR                       OR                        .......................
                                      Total non-Hg HAP metals  5.0E-5 lb/MMBtu or 5.0E-  Collect a minimum of 1
                                                                1 lb/GWh.                 dscm per run.
                                      OR                       OR                        .......................
                                      Individual HAP metals:   ........................  Collect a minimum of 3
                                                                                          dscm per run.
                                      Antimony (Sb)..........  8.0E-1 lb/TBtu or 8.0E-3
                                                                lb/GWh.
                                      Arsenic (As)...........  1.1E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Beryllium (Be).........  2.0E-1 lb/TBtu or 2.0E-3
                                                                lb/GWh.
                                      Cadmium (Cd)...........  3.0E-1 lb/TBtu or 3.0E-3
                                                                lb/GWh.
                                      Chromium (Cr)..........  2.8E0 lb/TBtu or 3.0E-2
                                                                lb/GWh.
                                      Cobalt (Co)............  8.0E-1 lb/TBtu or 8.0E-3
                                                                lb/GWh.
                                      Lead (Pb)..............  1.2E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Manganese (Mn).........  4.0E0 lb/TBtu or 5.0E-2
                                                                lb/GWh.
                                      Nickel (Ni)............  3.5E0 lb/TBtu or 4.0E-2
                                                                lb/GWh.
                                      Selenium (Se)..........  5.0E0 lb/TBtu or 6.0E-2
                                                                lb/GWh.

[[Page 23406]]

 
                                      b. Hydrogen chloride     2.0E-3 lb/MMBtu or 2.0E-  For Method 26A, collect
                                       (HCl).                   2 lb/MWh.                 a minimum of 0.75 dscm
                                                                                          per run; for Method
                                                                                          26, collect a minimum
                                                                                          of 120 liters per run.
                                                                                         For ASTM D6348-03 \3\
                                                                                          or Method 320, sample
                                                                                          for a minimum of 1
                                                                                          hour.
                                      OR
                                      Sulfur dioxide (SO2)     2.0E-1 lb/MMBtu or 1.5E0  SO2 CEMS.
                                       \4\.                     lb/MWh.
                                      c. Mercury (Hg)........  4.0E0 lb/TBtu or 4.0E-2   LEE Testing for 30 days
                                                                lb/GWh                    with 10 days maximum
                                                                                          per Method 30B run or
                                                                                          Hg CEMS or sorbent
                                                                                          trap monitoring system
                                                                                          only.
3. IGCC unit........................  a. Filterable            4.0E-2 lb/MMBtu or 4.0E-  Collect a minimum of 1
                                       particulate matter       1 lb/MWh.\2\              dscm per run.
                                       (PM).
                                      OR                       OR                        .......................
                                      Total non-Hg HAP metals  6.0E-5 lb/MMBtu or 5.0E-  Collect a minimum of 1
                                                                1 lb/GWh.                 dscm per run.
                                      OR                       OR                        .......................
                                      Individual HAP metals:   ........................  Collect a minimum of 2
                                                                                          dscm per run.
                                      Antimony (Sb)..........  1.4E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Arsenic (As)...........  1.5E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Beryllium (Be).........  1.0E-1 lb/TBtu or 1.0E-3
                                                                lb/GWh.
                                      Cadmium (Cd)...........  1.5E-1 lb/TBtu or 2.0E-3
                                                                lb/GWh.
                                      Chromium (Cr)..........  2.9E0 lb/TBtu or 3.0E-2
                                                                lb/GWh.
                                      Cobalt (Co)............  1.2E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Lead (Pb)..............  1.9E+2 lb/TBtu or 1.8E0
                                                                lb/GWh.
                                      Manganese (Mn).........  2.5E0 lb/TBtu or 3.0E-2
                                                                lb/GWh.
                                      Nickel (Ni)............  6.5E0 lb/TBtu or 7.0E-2
                                                                lb/GWh.
                                      Selenium (Se)..........  2.2E+1 lb/TBtu or 3.0E-1
                                                                lb/GWh.
                                      b. Hydrogen chloride     5.0E-4 lb/MMBtu or 5.0E-  For Method 26A, collect
                                       (HCl).                   3 lb/MWh.                 a minimum of 1 dscm
                                                                                          per run; for Method
                                                                                          26, collect a minimum
                                                                                          of 120 liters per run.
                                                                                         For ASTM D6348-03 \3\
                                                                                          or Method 320, sample
                                                                                          for a minimum of 1
                                                                                          hour.
                                      c. Mercury (Hg)........  2.5E0 lb/TBtu or 3.0E-2   LEE Testing for 30 days
                                                                lb/GWh                    with 10 days maximum
                                                                                          per Method 30B run or
                                                                                          Hg CEMS or sorbent
                                                                                          trap monitoring system
                                                                                          only.
4. Liquid oil-fired unit--            a. Filterable            3.0E-2 lb/MMBtu or 3.0E-  Collect a minimum of 1
 continental (excluding limited-use    particulate matter       1 lb/MWh.\2\              dscm per run.
 liquid oil-fired subcategory units).  (PM).
                                      OR                       OR                        .......................
                                      Total HAP metals.......  8.0E-4 lb/MMBtu or 8.0E-  Collect a minimum of 1
                                                                3 lb/MWh.                 dscm per run.
                                      OR                       OR                        .......................
                                      Individual HAP metals:   ........................  Collect a minimum of 1
                                                                                          dscm per run.
                                      Antimony (Sb)..........  1.3E+1 lb/TBtu or 2.0E-1
                                                                lb/GWh.
                                      Arsenic (As)...........  2.8E0 lb/TBtu or 3.0E-2
                                                                lb/GWh.
                                      Beryllium (Be).........  2.0E-1 lb/TBtu or 2.0E-3
                                                                lb/GWh.
                                      Cadmium (Cd)...........  3.0E-1 lb/TBtu or 2.0E-3
                                                                lb/GWh.
                                      Chromium (Cr)..........  5.5E0 lb/TBtu or 6.0E-2
                                                                lb/GWh.
                                      Cobalt (Co)............  2.1E+1 lb/TBtu or 3.0E-1
                                                                lb/GWh.
                                      Lead (Pb)..............  8.1E0 lb/TBtu or 8.0E-2
                                                                lb/GWh.
                                      Manganese (Mn).........  2.2E+1 lb/TBtu or 3.0E-1
                                                                lb/GWh.
                                      Nickel (Ni)............  1.1E+2 lb/TBtu or 1.1E0
                                                                lb/GWh.
                                      Selenium (Se)..........  3.3E0 lb/TBtu or 4.0E-2
                                                                lb/GWh.
                                      Mercury (Hg)...........  2.0E-1 lb/TBtu or 2.0E-3  For Method 30B sample
                                                                lb/GWh.                   volume determination
                                                                                          (Section 8.2.4), the
                                                                                          estimated Hg
                                                                                          concentration should
                                                                                          nominally be <\1/2\;
                                                                                          the standard.

[[Page 23407]]

 
                                      b. Hydrogen chloride     2.0E-3 lb/MMBtu or 1.0E-  For Method 26A, collect
                                       (HCl).                   2 lb/MWh.                 a minimum of 1 dscm
                                                                                          per Run; for Method
                                                                                          26, collect a minimum
                                                                                          of 120 liters per run.
                                                                                         For ASTM D6348-03 \3\
                                                                                          or Method 320, sample
                                                                                          for a minimum of 1
                                                                                          hour.
                                      c. Hydrogen fluoride     4.0E-4 lb/MMBtu or 4.0E-  For Method 26A, collect
                                       (HF).                    3 lb/MWh.                 a minimum of 1 dscm
                                                                                          per run; for Method
                                                                                          26, collect a minimum
                                                                                          of 120 liters per run.
                                                                                         For ASTM D6348-03 \3\
                                                                                          or Method 320, sample
                                                                                          for a minimum of 1
                                                                                          hour.
5. Liquid oil-fired unit--non-        a. Filterable            3.0E-2 lb/MMBtu or 3.0E-  Collect a minimum of 1
 continental (excluding limited-use    particulate matter       1 lb/MWh.\2\              dscm per run.
 liquid oil-fired subcategory units).  (PM).
                                      OR                       OR                        .......................
                                      Total HAP metals         6.0E-4 lb/MMBtu or 7.0E-  Collect a minimum of 1
                                                                3 lb/MWh.                 dscm per run.
                                      OR                       OR                        .......................
                                      Individual HAP metals:   ........................  Collect a minimum of 2
                                                                                          dscm per run.
                                      Antimony (Sb)..........  2.2E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Arsenic (As)...........  4.3E0 lb/TBtu or 8.0E-2
                                                                lb/GWh.
                                      Beryllium (Be).........  6.0E-1 lb/TBtu or 3.0E-3
                                                                lb/GWh.
                                      Cadmium (Cd)...........  3.0E-1 lb/TBtu or 3.0E-3
                                                                lb/GWh.
                                      Chromium (Cr)..........  3.1E+1 lb/TBtu or 3.0E-1
                                                                lb/GWh.
                                      Cobalt (Co)............  1.1E+2 lb/TBtu or 1.4E0
                                                                lb/GWh.
                                      Lead (Pb)..............  4.9E0 lb/TBtu or 8.0E-2
                                                                lb/GWh.
                                      Manganese (Mn).........  2.0E+1 lb/TBtu or 3.0E-1
                                                                lb/GWh.
                                      Nickel (Ni)............  4.7E+2 lb/TBtu or 4.1E0
                                                                lb/GWh.
                                      Selenium (Se)..........  9.8E0 lb/TBtu or 2.0E-1
                                                                lb/GWh.
                                      Mercury (Hg)...........  4.0E-2 lb/TBtu or 4.0E-4  For Method 30B sample
                                                                lb/GWh.                   volume determination
                                                                                          (Section 8.2.4), the
                                                                                          estimated Hg
                                                                                          concentration should
                                                                                          nominally be <\1/2\;
                                                                                          the standard.
                                      b. Hydrogen chloride     2.0E-4 lb/MMBtu or 2.0E-  For Method 26A, collect
                                       (HCl).                   3 lb/MWh.                 a minimum of 1 dscm
                                                                                          per run; for Method
                                                                                          26, collect a minimum
                                                                                          of 120 liters per run.
                                                                                         For ASTM D6348-03 \3\
                                                                                          or Method 320, sample
                                                                                          for a minimum of 2
                                                                                          hours.
                                      c. Hydrogen fluoride     6.0E-5 lb/MMBtu or 5.0E-  For Method 26A, collect
                                       (HF).                    4 lb/MWh.                 a minimum of 3 dscm
                                                                                          per run.
                                                                                         For ASTM D6348-03 \3\
                                                                                          or Method 320, sample
                                                                                          for a minimum of 2
                                                                                          hours.
6. Solid oil-derived fuel-fired unit  a. Filterable            8.0E-3 lb/MMBtu or 9.0E-  Collect a minimum of 1
                                       particulate matter       2 lb/MWh.\2\              dscm per run.
                                       (PM).
                                      OR                       OR                        .......................
                                      Total non-Hg HAP metals  4.0E-5 lb/MMBtu or 6.0E-  Collect a minimum of 1
                                                                1 lb/GWh.                 dscm per run.
                                      OR                       OR                        .......................
                                      Individual HAP metals..  Collect a minimum of 3
                                                                dscm per run.
                                      Antimony (Sb)..........  8.0E-1 lb/TBtu or 7.0E-3
                                                                lb/GWh.
                                      Arsenic (As)...........  3.0E-1 lb/TBtu or 5.0E-3
                                                                lb/GWh.
                                      Beryllium (Be).........  6.0E-2 lb/TBtu or 5.0E-4
                                                                lb/GWh.
                                      Cadmium (Cd)...........  3.0E-1 lb/TBtu or 4.0E-3
                                                                lb/GWh.
                                      Chromium (Cr)..........  8.0E-1 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Cobalt (Co)............  1.1E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Lead (Pb)..............  8.0E-1 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      Manganese (Mn).........  2.3E0 lb/TBtu or 4.0E-2
                                                                lb/GWh.
                                      Nickel (Ni)............  9.0E0 lb/TBtu or 2.0E-1
                                                                lb/GWh.

[[Page 23408]]

 
                                      Selenium (Se)..........  1.2E0 lb/TBtu or 2.0E-2
                                                                lb/GWh.
                                      b. Hydrogen chloride     5.0E-3 lb/MMBtu or 8.0E-  For Method 26A, collect
                                       (HCl).                   2 lb/MWh.                 a minimum of 0.75 dscm
                                                                                          per run; for Method
                                                                                          26, collect a minimum
                                                                                          of 120 liters per run.
                                                                                         For ASTM D6348-03 \3\
                                                                                          or Method 320, sample
                                                                                          for a minimum of 1
                                                                                          hour.
                                      OR                                                 .......................
                                      Sulfur dioxide (SO2)     3.0E-1 lb/MMBtu or 2.0E0  SO2 CEMS.
                                       \4\.                     lb/MWh.
                                      c. Mercury (Hg)........  2.0E-1 lb/TBtu or 2.0E-3  LEE Testing for 30 days
                                                                lb/GWh.                   with 10 days maximum
                                                                                          per Method 30B run or
                                                                                          Hg CEMS or Sorbent
                                                                                          trap monitoring system
                                                                                          only.
----------------------------------------------------------------------------------------------------------------
\1\ For LEE emissions testing for total PM, total HAP metals, individual HAP metals, HCl, and HF, the required
  minimum sampling volume must be increased nominally by a factor of two.
\2\ Gross electric output.
\3\ Incorporated by reference, see Sec.   63.14.
\4\ You may not use the alternate SO2 limit if your EGU does not have some form of FGD system and SO2 CEMS
  installed.

* * * * *

Table 7 to Subpart UUUUU of Part 63--Demonstrating Continuous Compliance
 [As stated in Sec.   63.10021, you must show continuous compliance with
     the emission limitations for affected sources according to the
                               following]
------------------------------------------------------------------------
If you use one of the following to meet
 applicable emissions limits, operating     You demonstrate continuous
 limits, or work practice standards . .        compliance by . . .
                   .
------------------------------------------------------------------------
1. CEMS to measure filterable PM, SO2,   Calculating the 30- (or 90-)
 HCl, HF, or Hg emissions, or using a     boiler operating day rolling
 sorbent trap monitoring system to        arithmetic average emissions
 measure Hg.                              rate in units of the
                                          applicable emissions standard
                                          basis at the end of each
                                          boiler operating day using all
                                          of the quality assured hourly
                                          average CEMS or sorbent trap
                                          data for the previous 30-
                                          boiler operating days,
                                          excluding data recorded during
                                          periods of startup or
                                          shutdown.
2. PM CPMS to measure compliance with a  Calculating the arithmetic 30-
 parametric operating limit.              boiler operating day rolling
                                          average of all of the quality
                                          assured hourly average PM CPMS
                                          output data (e.g., milliamps,
                                          PM concentration, raw data
                                          signal) collected for all
                                          operating hours for the
                                          previous 30 boiler operating
                                          days, excluding data recorded
                                          during periods of startup or
                                          shutdown.
3. Site-specific monitoring for liquid   If applicable, by conducting
 oil-fired units for HCl and HF           the monitoring in accordance
 emission limit monitoring.               with an approved site-specific
                                          monitoring plan.
4. Quarterly performance testing for     Calculating the results of the
 coal-fired, solid oil derived fired,     testing in units of the
 or liquid oil-fired units to measure     applicable emissions standard.
 compliance with one or more applicable
 emissions limit in Table 1 or 2.
5. Conducting periodic performance tune- Conducting periodic performance
 ups of your EGU(s).                      tune-ups of your EGU(s), as
                                          specified in Sec.
                                          63.10021(e).
6. Work practice standards for coal-     Operating in accordance with
 fired, liquid oil-fired, or solid oil-   Table 3.
 derived fuel-fired EGUs during startup.
7. Work practice standards for coal-     Operating in accordance with
 fired, liquid oil-fired, or solid oil-   Table 3.
 derived fuel-fired EGUs during
 shutdown.
------------------------------------------------------------------------

* * * * *

0
23. In Appendix A to Subpart UUUUU of Part 63, revise paragraphs 
6.2.1.4, 6.2.2.3, 7.2.4, 7.2.5.3.4, to read as follows:

Appendix A to Subpart UUUUU--Hg Monitoring Provisions

* * * * *
    6.2.1.4 The heat input-based Hg emission rate limit in Table 2 
to this subpart must be met on a 30 boiler operating day rolling 
average basis, except as otherwise provided in Sec.  63.10009(a)(2). 
Use Equation 19-19 in EPA Method 19 to calculate the Hg emission 
rate for each averaging period. The term Ehj in Equation 
19-19 must be in the units of the applicable emission limit. Do not 
include non-operating hours with zero emissions in the average.
* * * * *
    6.2.2.3 The applicable electrical output-based Hg emission rate 
limit in Table 1 or 2 to this subpart must be met on a 30-boiler 
operating day rolling average basis, except as otherwise provided in 
Sec.  63.10009(a)(2). Use Equation A-5 of this section to calculate 
the Hg emission rate for each averaging period.

[[Page 23409]]

[GRAPHIC] [TIFF OMITTED] TR19AP12.003

Where:

Eo = Hg emission rate for the averaging period (lb/GWh).
Echo = Electrical output-based hourly Hg emission rate 
for unit or stack operating hour ``h'' in the averaging period, from 
Equation A-4 of this section (lb/GWh).
n = Number of unit or stack operating hours in the averaging period 
in which valid data were obtained for all parameters.
(Note: Do not include non-operating hours with zero emission rates 
in the average).
* * * * *
    7.2.4 Certification, Recertification, and Quality-Assurance Test 
Reporting. Except for daily QA tests of the required monitoring systems 
(i.e., calibration error tests and flow monitor interference checks), 
the results of all required certification, recertification, and 
quality-assurance tests described in paragraphs 7.1.9.1 through 7.1.9.7 
of this section (except for test results previously submitted, e.g., 
under the ARP) shall be submitted electronically, using the ECMPS 
Client Tool, either prior to or concurrent with the relevant quarterly 
electronic emissions report.
* * * * *
    7.2.5.3.4 The results of all daily calibration error tests of the 
Hg CEMS, as described in paragraph 7.1.9.1 of this section and (if 
applicable) the results of all daily flow monitor interference checks.
* * * * *
[FR Doc. 2012-8703 Filed 4-18-12; 8:45 am]
BILLING CODE 6560-50-P