AGENCY:

Environmental Protection Agency (EPA).

ACTION:

Final rule.

SUMMARY:

In this action, EPA is taking final action on the portions of the June 13, 2001 proposed rule revisions that modify the existing requirements for sources affected by the Acid Rain Program and by the NO_X Budget Trading Program under the October 27, 1998 NO_X SIP Call. Certain changes to the proposed rule revisions have been made based on the public comments received. EPA is not finalizing the proposed changes at this time to the Appeal Procedures or to the Findings of Significant Contribution and Rulemaking on Section 126 Petitions for Purposes of Reducing Interstate Ozone Transport. Today's final rule establishes additional flexibility and options for sources in meeting the continuous emission monitoring system (CEMS) requirements under programs to reduce sulfur dioxide and nitrogen oxides emissions. These revisions may apply to sources that monitor and report emissions only during the ozone season, as well as to sources that monitor and report emissions for the entire year. The provisions in this final rule benefit the environment by ensuring that sulfur dioxide (S0₂), nitrogen oxides (NO_X), and carbon dioxide (CO₂) emissions are accurately monitored and reported, even as they benefit the affected industrial sources by creating opportunities to adopt cost saving procedures.

DATES:

The effective date of this rule is July 12, 2002. However, regulated entities will have additional time to implement certain requirements, as described in Section V, Rule Implementation, and in the rule.

ADDRESSES:

Docket. Supporting information, including public comments, used in developing the regulations is contained in Docket No. A-2000-33. This docket is available for public inspection and photocopying between 8:00 a.m. and 5:30 p.m. Monday through Friday, excluding government holidays, and is located at: EPA Air Docket (MC 6102), Room M-1500, Waterside Mall, 401 M Street, SW, Washington, DC 20460. A reasonable fee may be charged for photocopying.

FOR FURTHER INFORMATION CONTACT:

Gabrielle Stevens, Clean Air Markets Division (6204N), U.S. Environmental Protection Agency, 1200 Pennsylvania Avenue, NW, Washington, DC 20460, telephone number (202) 564-2681 or the Acid Rain Hotline at (202) 564-9620. This document and technical support documents can be accessed through the EPA Web site at: http://www.epa.gov/​airmarkets.

SUPPLEMENTARY INFORMATION:

A redline/strikeout version of 40 CFR parts 72 and 75 as amended by this final rule is available in the Docket and on the EPA Web site referenced above. The contents of the preamble are listed in the following outline:

I. Regulated Entities

II. Background and Summary of Final Rule

III. Statutory Authority, Regulatory History, and Stakeholder Involvement

IV. Summary of Major Comments and Responses

A. Missing Data

1. What changes to the CEMS missing data procedures of §§ 75.31 through 75.37 are finalized?

2. How are the CEMS missing data provisions of subpart H affected by today's rule?

3. What CEMS missing data provisions are finalized for units that do not produce electrical or thermal output?

4. Will today's rule affect the way in which load ranges (or “bins”) are established for missing data purposes?

B. Low Mass Emissions Units

1. Does today's rule change the qualification requirements for low mass emissions units?

2. How does today's rule change the certification application procedures and requirements for low mass emissions units?

3. How will today's rule affect the way in which fuel- and unit-specific NO_X emission rates are determined for low mass emissions units?

4. Does today's rule allow testing to be done at fewer than four load levels to determine fuel- and unit-specific NO_X emission rates for low mass emissions units?

C. Quality Assurance/Quality Control

1. What changes to the method of determining the NO_X MPC, MEC, span, and range are finalized in today's rule?

2. What changes to the 7-day calibration error test are finalized?

3. What changes to the QA/QC requirements for low-emitting sources are finalized?

4. What changes to the stack flow-to-load ratio test are finalized?

5. What special QA provisions are finalized for units that do not produce electrical output or steam load?

D. Appendix D

1. What changes to the definitions of “pipeline natural gas” and “natural gas” are finalized?

2. How does today's rule change the method by which a gaseous fuel qualified as “pipeline natural gas” or “natural gas”?

3. How does today's rule change the fuel sampling and data reporting requirements for gaseous fuels other than pipeline natural gas and natural gas?

4. What changes to the appendix D missing data procedures are finalized?

E. Other Highlights and Changes

1. What changes to the compliance dates and timelines for monitor certification in § 75.4 are finalized in today's rule?

2. Does today's rule change the way in which unit and stack operating hours are counted?

3. Does today's rule change the notification requirements for monitor certifications and recertifications?

4. Does today's rule affect the way in which emissions are monitored and reported for units with bypass stacks?

5. What other noteworthy provisions are finalized in today's rule?

F. Streamlining Changes

V. Rule Implementation

VI. Administrative Requirements

A. Executive Order 12866: Regulatory Planning and Review

B. Unfunded Mandates Reform Act

C. Paperwork Reduction Act

D. Regulatory Flexibility Act

E. National Technology Transfer and Advancement Act

F. Executive Order 13045: Protection of Children from Environmental Health Risks and Safety Risks

G. Executive Order 13132: Federalism

H. Executive Order 13175: Consultation and Coordination with Indian Tribal Governments

I. Executive Order 13211: Actions Concerning Regulations That Significantly Affect Energy Supply, Distribution, or Use

J. Congressional Review Act

I. Regulated Entities

Entities regulated by this action are fossil fuel-fired boilers, turbines, and combined cycle units that serve electric generators, produce steam, or cogenerate electricity and steam. While part 75 of title 40 of the Code of Federal Regulations (40 CFR) primarily regulates the electric utility industry, certain State and Federal NO_X mass emissions programs also rely on 40 CFR part 75 (subpart H), and those programs may include boilers, turbines, and combined cycle units from other industries. Regulated categories and entities include:

This table is not intended to be exhaustive, but rather to provide a guide Start Printed Page 40395for readers regarding entities likely to be regulated by this action. This table lists the types of entities which EPA is now aware could potentially be regulated by this action. Other types of entities not listed in the table could also be regulated. To determine whether your facility, company, business, or organization is regulated by this action, you should carefully examine the applicability provisions in 40 CFR 72.6, 72.7, and 72.8 and parts 96 and 97. If you have questions regarding the applicability of this action to a particular entity, consult the person listed in the preceding FOR FURTHER INFORMATION CONTACT section of this preamble.

II. Background and Summary of Final Rule

Today's action modifies existing monitoring and reporting requirements in 40 CFR parts 72 and 75. These requirements support emission control programs that use the monitoring and reporting provisions of part 75, such as the Acid Rain Program, and the NO_X Budget Trading Program developed under the October 27, 1998, NO_X SIP Call. The emphasis of these revisions is three-fold: (1) To streamline the rule by eliminating outdated sections; (2) to make technical corrections and clarifications to the rule; and (3) to add flexibility to the monitoring and reporting requirements. The most substantive changes finalized are as follows: the definitions of “pipeline natural gas” and “natural gas” in § 72.2 are finalized as proposed to remove all references to the H₂ S content of the fuel and instead be based on total sulfur content, along with corresponding changes appendix D to part 75; the low mass emissions (LME) units provisions in § 75.19 are clarified and expanded and, for units with certain types of NO_X emission controls, qualification as a LME unit is made easier; the CEMS missing data procedures are revised to allow fuel-specific missing data substitution; the missing data procedures in subpart H of part 75 are expanded and clarified for sources that are non-load based and/or report emission data only in the ozone season; the NO_X span and range provisions in appendix A are revised to make them easier to implement for combustion turbines; and the alternate calibration error limit for daily operation is changed from 10 ppm to 5 ppm for units with span values of 50 ppm or less.

EPA has developed a Response to Comment document (see Docket No. A-2000-33, Item V-C-1) as a supplement to this preamble, which addresses all the comments received on the proposed rule revisions. Comments that were raised and are not addressed in this preamble are responded to in this supplemental document.

III. Statutory Authority, Regulatory History, and Stakeholder Involvement

In accordance with titles I and IV of the Clean Air Act (CAA, or the Act), with today's action EPA is promulgating revisions to rules implementing programs that the Agency has established to mitigate interstate transport of nitrogen oxides, as well as to reduce the acidic deposition precursor emissions of sulfur dioxide and nitrogen oxides. EPA originally promulgated 40 CFR parts 72 and 75 on January 11, 1993, to implement the Acid Rain Program as authorized by title IV of the Act. EPA has subsequently promulgated several final rules revising CEMS requirements in part 75 and relevant definitions in part 72 (see below).

Section 110 of the Act requires that State Implementation Plans (SIPs) prohibit sources from contributing significantly to nonattainment or maintenance of attainment in another State. On October 27, 1998, EPA issued the NO_X SIP Call, a final rule under section 110 requiring certain States to revise their SIPs to meet NO_X emission budgets to prevent such significant contribution to ozone nonattainment. States may adopt in their SIPs a NO_X Budget Trading Program for large electric generating units (EGUs) and large non-electric generating units (non-EGUs) and require such units to monitor under part 75. Further, section 126 of the Act authorizes EPA to directly regulate, and require reductions of NO_X emissions from, sources that emit in violation of the prohibition in section 110 against significantly contributing to ozone nonattainment or maintenance problems in a downwind State. On January 18, 2000, EPA published a finding that large EGUs and certain large non-EGUs in particular States named in petitions filed by several northeastern States emit NO_X in violation of Section 126 of the CAA (65 FR 2674). In that same notice, the EPA finalized the Federal NO_X Budget Trading Program in part 97 as the control remedy and required that these units monitor under part 75.

In today's rule, the provisions of parts 72 and 75 are revised to modify the requirements for sources under the Acid Rain Program, the NO_X SIP Call, and the Federal NO_X Budget Trading Program.

As noted above, the Agency first promulgated parts 72 and 75 under title IV on January 11, 1993. On May 17, 1995 and November 20, 1996, the Agency revised parts 72 and 75 to make implementation simpler (60 FR 26510 and 61 FR 59142). On May 21, 1998, the Agency proposed additional revisions to parts 72 and 75 to make implementation easier and more efficient, to improve quality assurance requirements, and to create new alternative monitoring options (63 FR 28032). EPA promulgated final rule revisions addressing some of these additional proposed revisions, based on comments received, when EPA promulgated the NO_X SIP Call (63 FR 57356). On May 26, 1999, EPA issued final rule revisions addressing the remaining May 21, 1998 proposed revisions (64 FR 28564). On June 13, 2001, EPA proposed further revisions to parts 72, 75, 78, and 97 (66 FR 31978). The revisions to parts 72 and 75 are being finalized in today's rule, while the changes to parts 78 and 97 will be addressed in a later rulemaking.

Throughout the implementation of the Acid Rain Program, particularly since 1995, EPA has worked and continues to work on a regular basis with stakeholders, the regulated community, the public, other state and local agencies, and environmental groups and consultants. Internally, EPA holds frequent policy meetings to discuss many of the questions and problems that affected sources raise to their Regional contact in EPA. Many of the changes in today's rule result from industry petitions to the Agency as well as comments, phone calls, and dialogues during conferences and workshops. Most recently, EPA conducted two conferences in July (Louisville, KY) and September (Alexandria, VA) of 2001, and then initiated five regional workshops targeted at the regulated community and state agencies to support the Acid Rain Program and assist in implementing the NO_X Budget Trading Program. EPA is committed to this ongoing interaction with stakeholders across all spectra.

IV. Summary of Major Comments and Responses

EPA responded to all comments received by the close of the extended comment period, August 20, 2001, regarding the current proposal. EPA's responses are summarized in this section of the preamble and are available in their entirety in the Response to Comment document in the rule docket (see Docket No. A-2000-33, Item V-C-1). The majority of comments related to parts 72 and 75; therefore, this section addresses those issues. Revisions to part 78 received no comments, and revisions to part 97 received only two comments, both of which are addressed in the Response to Start Printed Page 40396Comment document. As noted above, EPA intends to finalize changes to part 78 and 97 in a separate rulemaking. The major topics in part 75 that EPA is focusing on in this section are: missing data; LME units; quality assurance and quality control (QA/QC); appendix D; other highlights and changes; and streamlining changes.

A. Missing Data

1. What Changes to the CEMS Missing Data Procedures of §§ 75.31 Through 75.37 Are Finalized?

Background

a. What is Currently Required?

The part 75 CEMS missing data procedures in §§ 75.31 through 75.37 require the use of substitute data values for each unit operating hour in which quality-assured data are not obtained, either from a certified CEMS, a reference method, or an approved alternative monitoring system. The method of determining the appropriate substitute data values depends principally on two things: (1) the length of the missing data period; and (2) the percent monitor data availability at the end of the missing data period.

Existing part 75 missing data procedures do not take into consideration the type of fuel combusted. Rather, a single database of quality-assured monitor operating hours is maintained for each monitored parameter (e.g., SO₂, NO_X, flow rate) in order to provide substitute data values when a historical lookback is required.

For units with add-on SO₂ or NO_X emission controls, § 75.34 allows two principal missing data options. The owner or operator may either: (1) Report maximum potential values or, if the controls are documented to be operating properly, report the standard missing data procedures; or (2) petition the Administrator to develop and use site-specific parametric monitoring procedures for missing data substitution in lieu of using the standard missing data procedures. Section 75.34(a)(2) also allows the owner or operator to petition the Administrator for permission to report the maximum controlled emission rate recorded in the previous 720 quality-assured monitor operating hours (without regard to control operational status), in cases where the standard missing data routines would require the maximum value in the lookback period to be reported.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed to revise the part 75 missing data procedures to allow the standard missing data substitution in § 75.33 to be done on a fuel-specific basis. The proposed revisions would allow the owner or operator to create and maintain separate databases for missing data purposes for each type of fuel combusted in the unit. Substitute data values would be derived from the appropriate database, depending on the type of fuel being burned during the missing data period.

For units with add-on SO₂ or NO_X emission controls, EPA further proposed to remove the petition provision from § 75.34(a)(2) and replace it with a new missing data option, based on the operating status of the emission controls. The owner or operator of a unit with add-on SO₂ or NO_X emission controls would be allowed to create and maintain two separate databases, controlled and uncontrolled, for missing data purposes. Any hour in which the add-on controls were documented to be operating (i.e., on) would be included in the controlled database. Any hour in which the controls were not operating (i.e., off) would be included in the uncontrolled database. The appropriate substitute data value for each hour of a missing data period would be taken from either the controlled or uncontrolled database, depending on whether the emission controls were documented (by means of parametric data) to be operating properly during the hour.

EPA also proposed to change the way in which parametric data are used to document proper operation of add-on emission controls during periods of missing SO₂ or NO_X data. Proposed § 75.34(d) would require the owner or operator to establish a demonstrable correlation between the parametric data and control device removal efficiency, as part of the QA/QC program for the unit. The correlation would be based on a minimum of 720 hours of parametric data recorded during unit operation, when the add-on controls are in-service and the SO₂ or NO_X monitor at the control device outlet is providing quality-assured data. The correlation would serve as the basis for determining whether substitute data values should be taken from the controlled database or from the uncontrolled database during periods of missing SO₂ or NO_X data.

c. What Changes Is EPA Finalizing?

Today's rule finalizes the fuel-specific missing data option, with some editorial changes including new language addressing the co-firing of fuels (see Discussion, below). However, based on comments received, EPA is not adopting the other proposed missing data option, which would have allowed the owners or operators of units with add-on emission controls to separate their data into controlled and uncontrolled databases. The final rule replaces, in response to these comments, the proposed option with a provision that accomplishes a similar objective with respect to seasonally operated control devices, without requiring control device operational status to be documented. The replacement provision allows subpart H sources that report data on a year-round basis to separate their quality-assured NO_X emission data into ozone season data and non-ozone season data for missing data purposes. The final rule also retains the provision in § 75.34 which allows sources to petition to report the maximum controlled emission rate in a 720-hour lookback period.

Discussion

Two commenters were supportive of the proposed fuel-specific missing data option (Utility Air Regulatory Group (UARG); Clean Energy Group). However, another commenter asked EPA to explain what it means to create and maintain a “separate database” for each fuel or blend, and also asked how a “blend” is determined (KVB-Enertec (KVB)). Two commenters questioned how these proposed missing data procedures would be implemented for units that sometimes co-fire different types of fuel (UARG, KVB). Specifically, the commenters expressed concern about having to maintain an extra database for co-fired hours. One of the commenters suggested keeping only single-fuel databases and pro-rating the missing data values during co-fired hours (UARG).

Based on these comments, EPA incorporates the fuel-specific missing data option into today's rule, although the final rule language is somewhat modified from the proposal. The final rule differs from the proposal in that it provides for greater flexibility in how to implement the new missing data option. Paragraphs (b)(6) and (c)(8) in § 75.33 give more general implementation guidelines, rather than providing detailed instructions. Regarding the comments about co-firing, while EPA agrees that it is desirable to maintain as few databases as possible, the Agency did not incorporate the commenter's suggested approach because the commenter did not provide an adequate explanation of how it would work. However, today's rule provides an alternative to maintaining separate databases for co-fired hours for units that co-fire fuels and elect to use the fuel-specific missing data option. The final rule allows the owner or operator to keep single-fuel databases, provided Start Printed Page 40397that the database for the fuel with the higher emission rate is used to provide substitute data values during co-fired hours.

Regarding the Agency's proposal to provide a control status-specific missing data option for units with add-on SO₂ and NO_X emission controls, two commenters supported the concept of this option (UARG, Clean Energy Group). However, strenuous objections were raised to the proposed method of documenting proper operation of the add-on controls (UARG; Robert Machaver (Machaver)). In particular, the commenters objected to the potential high cost of developing complex correlations between parametric data and control device removal efficiency and questioned the usefulness and reliability of such correlations. One commenter also objected to removing the petition provision from § 75.34(a)(2), which would allow the source to report the maximum controlled value in a 720-hour lookback period (UARG).

After careful consideration of the comments, EPA replaces the proposed missing data option with a procedure that will achieve the objective of the proposal for seasonally operated controls, without being dependent on the operational status of the add-on emission controls. The Agency also is not adopting the requirement to develop a correlation between control device removal efficiency and parametric data to demonstrate proper operation of the add-on emission controls, principally in response to the objections of the commenters to the cost and level of effort needed to develop correlations between parametric data and control device removal efficiency. The original rule language in § 75.34(d) is retained, requiring sources to specify in the quality assurance (QA) plan for the unit the essential parameters and ranges needed to verify proper operation of the add-on emission controls.

It should be noted that one of the principal reasons EPA proposed the control status-specific missing data option in § 75.34(a)(2) for units with add-on emission controls was to accommodate units that are subject to the Federal NO_X Budget Trading Program (which is being implemented as a result of the NO_X SIP Call). In particular, many units required to report NO_X emissions data on a year-round basis will operate their add-on NO_X emission controls only during the ozone season, in order to comply with the NO_X emission reduction requirements of the NO_X SIP Call. The proposed missing data option would have allowed these sources to separate their uncontrolled and controlled emission data, thereby providing a more equitable scheme for missing data substitution.

After further consideration, taking into account the supportive comments for the concept of the proposed missing data option, EPA believes that the objective of the option can be accomplished in a different way, without requiring separate controlled and uncontrolled databases to be maintained or that any parametric correlations be developed. Accordingly, § 75.34(a)(2) of today's rule allows the owner or operator to separate the historical, quality-assured NO_X emissions data into ozone season and non-ozone season NO_X data, for missing data purposes. Use of this missing data option is limited to units that report NO_X mass emissions data on a year-round basis under subpart H of part 75, and that operate their NO_X emission controls only during the ozone season, or in a less efficient manner outside the ozone season. During periods of NO_X missing data, revised § 75.34(a)(2) specifies that the appropriate substitute data values are to be drawn from one database or the other, depending on whether the missing data period is inside or outside the ozone season. Missing data periods that begin outside the ozone season and continue into the ozone season are treated as two separate missing data incidents, one ending on April 30, hour 23, and one beginning on May 1, hour 00. Further, the standard NO_X missing data algorithms may be applied at all times during the non-ozone season missing data periods, without any requirement to record parametric data to verify proper operation of add-on controls.

2. How Are the CEMS Missing Data Provisions of Subpart H Affected by Today's Rule?

Background

a. What Is Currently Required?

The missing data procedures for units which are subject to a State or Federal NO_X mass emissions reduction program and must monitor NO_X mass emissions according to subpart H of part 75 are specified in §§ 75.70(f) and 75.74(c)(7). Section 75.70(f) requires the initial and standard missing data procedures of §§ 75.31 through 75.37 to be used for sources that report emission data on a year-round basis. Section 75.74(c)(7) requires subpart H sources that report data on an ozone season-only basis to use the missing data procedures of §§ 75.31 through 75.37 also, except that only data from within the ozone season are to be used in the historical lookbacks.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed to revise § 75.74(c)(7) by adding a new paragraph (iii), with subparagraphs (A) through (M), explaining how to apply the part 75 missing data procedures in §§ 75.31 through 75.37 on an ozone season-only basis. EPA proposed adding these provisions to subpart H because the part 75 missing data routines are designed for sources that report emission data on a year-round basis. Thus, for all of the part 75 standard missing data routines that use 720 or 2,160 hour historical lookbacks to determine the appropriate substitute data values, the databases for the lookbacks include all of the quality-assured CEMS data that have been recorded throughout the year. Also, the percent monitor data availability (PMA) calculations described in § 75.32, which are always based on a particular number of unit operating hours, include unit operating hours from all four calendar quarters of the year.

Proposed § 75.74(c)(7)(iii) would modify the initial and standard part 75 missing data procedures in §§ 75.31 through 75.37 to adapt them to sources that report emission data only during the ozone season. The missing data instructions for ozone season-only reporters were written in a parallel manner to the missing data procedures for year-round reporters.

c. What Changes Is EPA Finalizing?

Today's rule finalizes the changes to § 75.74(c)(7) as proposed, except that for both PMA calculations and historical missing data lookbacks, the lookback periods would be limited to three years (26,280 clock hours) prior to the missing data period, rather than three ozone seasons as proposed.

EPA further notes that the fuel-specific missing data option described above in question 1 of this section is available to all subpart H sources, and the option to create and maintain separate ozone season and non-ozone season databases for missing data purposes is available to subpart H sources that report emissions data on a year-round basis.

Discussion

EPA received only one comment on the proposed missing data revisions to § 75.74(c)(7). The commenter recommended that the lookback period be limited to three years prior to each missing data period rather than three ozone seasons as proposed (Environmental Systems Corporation (ESC)). Another commenter questioned similar language found in proposed Start Printed Page 40398§ 75.33(c)(9), i.e., the parenthetical expression “(or three ozone seasons)” next to the words, “three years”, referring to missing data lookbacks (Monitor Labs (Monitor)). EPA agrees with the commenters that for the purposes of missing data lookbacks, consistency is essential. For both year-round reporters and sources that report emissions on an ozone season-only basis, no data recorded more than three years prior to the missing data period should be used in the historical lookbacks. Therefore, in today's rule, all references in § 75.33, § 75.74(c)(7)(iii), and elsewhere to data recorded in the previous three ozone seasons are removed and replaced with references to the previous three years.

3. What CEMS Missing Data Provisions Are Finalized for Units That Do Not Produce Electrical or Thermal Output?

Background

One of the main objectives of the June 13, 2001, proposed rule was to modify the existing monitoring and reporting sections of parts 72 and 75 that apply to NO_X emission reduction programs, such as the Federal NO_X Budget Trading Program developed in response to the October 27, 1998 SIP call. Under the NO_X SIP call, States have the flexibility to include stationary sources other than EGUs in their NO_X reduction plans. Some of these non-EGUs (such as cement kilns and refinery process heaters) do not produce electrical or thermal output, i.e., “load.”

a. What Is Currently Required?

EPA examined the part 75 missing data provisions to assess whether those provisions are adequate for determining NO_X mass emissions from non-EGUs. As a result of this assessment, EPA concluded that for industrial boilers which produce steam load and which are very similar to electric utility boilers, no significant changes to the missing data provisions of part 75 would be required. However, for cement kilns and refinery process heaters which do not produce electricity or steam load, EPA concluded that modifications to the missing data routines for NO_X concentration, NO_X emission rate, stack flow rate, and fuel flow rate would be necessary, since these missing data routines are load-dependent.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed non-load-based missing data routines which are modeled after, and are much the same as, the existing routines for load-based units, with one important difference: the owner or operator of a non-load-based unit would have a choice to define and use “operational bins” to segregate the quality-assured emissions data, or not to use operational bins at all.

The reason EPA proposed allowing the use of operational bins was to give affected facilities the flexibility to customize their missing data routines, based on plant operational parameters and conditions that affect NO_X emissions, stack flow rate, or fuel flow rate. The procedures and requirements for defining operational bins were proposed as new sections 3 and 4 of appendix C to part 75. These new provisions would require the owner or operator to provide a complete description of each operational bin in the hardcopy portion of the monitoring plan and to monitor the operating conditions used to define the operational bin.

c. What Changes Is EPA Finalizing?

Today's rule finalizes the missing data provisions for units that do not produce electrical or steam load. The final rule differs from the proposal in the following ways: (1) In Table 3, the algorithms requiring a comparison of the average value in a 2,160 lookback period against the 90th (or 95th) percentile value have been simplified to require that just the percentile value be reported (the reasons for this change are given in the Discussion immediately below); and (2) proposed section 4 of appendix C, which would have allowed the use of operational bins for fuel flow rate missing data, is not adopted (the reasons for not finalizing that option are explained in detail in the Discussion in Section IV. D.4. of this preamble).

Discussion

EPA received comments on the proposed missing data provisions for non-load-based units from only two commenters (KVB; American Portland Cement Alliance (APCA)). The first commenter stated that the rule should provide a clear way of defining “operational bins” (KVB). The second commenter fully supported the proposed operational bin provisions, but objected to the use of 90th percentile, 95th percentile, and maximum values in the missing data lookback periods for NO_X and flow rate, claiming that these percentile values, which may be reasonable for EGUs, are unfairly punitive for the affected units in the commenter's industry (APCA). The second commenter included supplementary data previously presented to EPA in 1999 (see Docket No. A-2000-33, Item II-C-2) and proposed an alternate missing data protocol, using a “percent-above-average” approach in lieu of using the 90th percentile, 95th percentile, and maximum values. The commenter asked EPA to revisit the Agency's prior data analysis, claiming that EPA's previous analysis had overstated the variability of EGU emission data by not taking certain factors into consideration. EPA declines to adopt the commenter's percent-above-average proposal, and concludes that no additional data analysis is necessary in order to support an appropriate missing data routine for non-load units.

The most significant reason that EPA rejects the commenter's proposal is because the proposal rests on a fundamental misunderstanding of the basis and purpose of the missing data procedures. As stated in previous meetings and conversations with the commenter and in EPA's detailed written response, sent to the commenter on November 22, 2000 (see Docket No. A-2000-33, Item II-C-3), the key issue is the following: the missing data procedure in 40 CFR part 75 is designed to provide substitute values strictly relative to a unit's own emissions history, not compared to the emissions history of the universe of all units, as would be the case using the proposed percent-above-average multiplier.

The missing data procedure strictly pertains to the monitoring of emissions, not to the operation of a unit. It implements Section 412(d) of the CAA which mandates EPA's Administrator to prescribe a means to calculate emission values during periods when data from the certified monitor is unavailable. The purpose is to substitute a value that is not lower than the unknown actual value for an improperly operated monitor. This means that a comparison of the variability of one unit's emission data to another unit's emission data (or to a class of other units' emission data), or a comparison of emission levels at one unit relative to another unit (or class of units), is not relevant in assessing the applicability of the missing data procedure. This can be seen both in the regulatory history and the structure of the missing data procedure.

As stated in the preamble to the original 40 CFR part 75 regulations published in the Federal Register on January 11, 1993 (58 FR 3635), the primary intent in developing the missing data procedure was to provide a “substantial incentive to improve monitor availability” (58 FR 3637). To provide this substantial incentive, the Agency originally considered proposals to use only the maximum previous value recorded and the average of the five highest previously recorded values, Start Printed Page 40399and finally settled on the current tiered approach. All of the approaches, contemplated and adopted, were premised on providing an incentive to keep monitors operational by requiring substitution of either the maximum value previously recorded at each specific facility or a value higher than at least 90 percent (for shorter monitor outages) or 95 percent (for longer monitor outages) of the values previously recorded at the specific unit. None of the approaches offered variations based on differences in emission variability or emission levels encountered at different units. To do so would have been contrary to the goal of providing, for each and every unit, a “substantial incentive to improve monitor availability” (58 FR 3637, January 11, 1993).

The commenter, on the other hand, proposes using a multiplier which is based on the averaged emissions history of a different set of units, that of utility units, which in aggregate would not display the high emissions excursions that are typical of cement kilns. The commenter does not dispute the need for a missing data procedure as an important component of a monitoring program; just its application during times of long monitor outage and low monitor availability—exactly the times that the missing data routine was designed to limit. Their proposal suggests using the “percent above the average for each percentile as calculated from the electric utility boiler data to the cement kiln data.” This proposal underscores the commenter's misunderstanding about the purpose of missing data.

Use of the commenter's proposed percentage-above-average multiplier would mean that even in situations of substantial monitor outages (representing as much as 20 percent of a monitoring year), kilns whose own emission history displayed frequent excursions into high emission levels (as illustrated, for example, in commenter's Figure 1, page 2 of the attachment to Docket No. A-2000-33, Item IV-D-2) would substitute values substantially below these high excursions. The proposed procedure could have an effect completely contrary to the regulatory intent of the missing data procedure, i.e., providing an incentive to improve monitor availability. In fact, EPA believes this approach, were it to be employed, would cause a reverse incentive to turn off monitors at affected facilities. The commenter acknowledges that the NO_X emitted from their facilities is thermal NO_X, which is a critical aspect of the product's quality control. Because temperatures are product-related, they are carefully monitored. Operators may be able to predict, therefore, when emissions are high. Because of the market value of emissions, the percent-above-average multiplier approach may encourage sources to turn off monitors at higher fuel flow rates or higher kiln temperatures when NO_X emissions might increase. EPA experienced similar concerns with the utility industry in the early 1990s, when a diverse array of commenters recommended that EPA provide sufficiently punitive procedures to ensure that there would be an “effective deterrent to deliberate shutdowns of CEMS during period of high emissions' (58 FR 3637, January 11, 1993). These concerns were a factor in the final approach that was adopted.

The commenter's methodology is inconsistent with the purpose of missing data. The commenter misconstrues the concept of missing data substitution and its implementation by stating that missing data routines were created to encourage three activities: maintaining CEMS; getting malfunctioning CEMS back on line quickly; and operating power plants efficiently so as to avoid NO_X spikes. While the first two points are correct, the third “activity” has never been a purpose of missing data. Rather, it is a consequence of efficient plant operations which has some ancillary benefits. Operating bins, discussed later, afford similar benefits to kiln operators. In fact, there are numerous options available to kiln operators, as there are for EGUs, to minimize the need for and impacts of missing data routines. For instance, in the early years of monitoring, some utilities that were initially concerned about missing data protocols installed redundant backup systems so that if one monitor went down, another was available and no missing data period would be incurred. Others bought “like-kind replacement analyzers” that were also available should the primary monitor not perform. However, over time, many of these sources have found that these options were not necessary because, through proper maintenance of the CEMS, performance is usually not an issue. The commenter's analysis does not consider these options.

The commenter also claims that “facilities with less reliable CEMS” need tailored missing data protocols “to represent the realities of cement manufacturing.” EPA does not believe that this comment presents a relevant issue. The commenter has provided no evidence to demonstrate any basis for monitors to perform less reliably on cement kilns. The NO_X concentration monitor and stack flow monitor (critical CEMS components) that are installed on a cement kiln stack are no different from those that might be installed at a coal-fired utility boiler. APCA indicates that most of its companies burn coal as fuel in their cement making process. The result of burning coal, just like in a utility boiler, is a gas that exits the kiln through a stack. The CEMS samples that gas on minute-by-minute intervals in order to come up with a quality assured operating hour of data, which is banked in a data acquisition and handling system (DAHS). The only time the owner or operator of a cement kiln will have to use the missing data substitution protocol is when the CEMS is out of order or not operating properly. Utilities are currently maintaining CEMS at above 99 percent availability, up from around 95 percent when CEMS were first installed on utility boilers under the Acid Rain Program in the mid 1990s.

The commenter has also suggested that the standard missing data procedure creates an equity issue, and that EPA is penalizing the cement industry unfairly because of its high variability. EPA disagrees with the commenter. EPA requires that all continuous emission monitors be continuously maintained and operated and has created an incentive structure, in the form of missing data procedures, to ensure this. Studies have demonstrated variability, comparable to that which APCA claims for cement kilns, for utility units in the pre- and post-control mode (see Docket No. A-92-15, Item II-I-26). EPA has demonstrated in previous data analyses and correspondence with the commenter (see Docket No. A-2000-33, Items II-C-2 and II-C-3) that there are many EGUs with variability of NO_X emission rate comparable to that for the cement kilns. EPA examined data from more than 1,000 utility boilers and compared it to the limited data submitted by the commenter for seven cement kilns out of the approximately 200 kilns operating in the U.S.. EPA's intent in performing the data analysis was to show that, even taken at face value, the commenter's contention is without merit: a statistical analysis of the data showed that there are EGUs with just as much emission rate variability (reflected as relative standard deviation). Consequently, EPA does not accept the premise of the commenter's concern.

Further, it is important to note that many utilities have done an exceptional job, over time, of reducing emission variability. EPA would also note that the cement industry data analysis did not Start Printed Page 40400reflect data stratification into operational bins. At the commenter's suggestion, EPA has proposed the use of “operational bins” which allow emissions data to be sub-categorized for missing data purposes (e.g., for mid-kiln injection of fuel, a bin for injection system on and a bin for injection system off). These operational bins are analogous to the load bins available to EGUs, and will allow non-load units to avoid unnecessarily reporting the highest missing data value, if they can show that during the time CEMS are not operational the unit was in an operating bin for which a “lower” highest missing data value applies. The Agency is confident that application of the operating bin concept will reduce the conservatism of missing data procedures for kilns.

The commenter also suggests that EPA's proposal to remove the hour before/hour after (HB/HA) algorithm from the missing data routine for non-load based units suggests that the Agency concedes that kilns are more variable than EGUs. To the contrary, the purpose of the HB/HA option, as applied to load based units, is to capture the fact that units may be operated for extended periods at peak load. In such a case, a unit at its maximum load and maximum emissions may actually have greater than the 95th percentile emissions (i.e., the 95th percentile may be too low a number under such conditions to substitute for the unknown value). So the HB/HA provision was developed to potentially capture such incidents by providing, during periods of long outages, a substitute value which is the greater of the HB/HA or the 90th (or 95th) percentile in a 2,160 hour lookback period. Based on commenter-provided data for seven cement kilns, EPA initially suspected that short-term variability could cause the application of HB/HA to be punitive. However, although the Agency has concerns relating to the representation of industry data, we believe that there is little risk in deferring applicability of the provision until such time as sufficient information is available on an operating bin basis to assess the effectiveness of percentile based data substitution. EPA reserves the right to examine cement kiln data that is reported in the future and reconsider whether or not this decision is appropriate.

As an alternative, in the June 13, 2001 proposed rule revisions, EPA proposed to replace the HB/HA criterion with the average value in a 2,160-hour lookback period in the NO_X missing data algorithms in Table 3. The commenter has correctly pointed out in comments on the proposal that EPA's proposed replacement for the HB/HA criterion in Table 3 (i.e., comparison of the average in the 2,160 hour lookback period and 90th or 95th percentile value of the same set of data) is technically unsound. The proposed replacement algorithms that require the “higher of” the 90th (or 95th) percentile value or the average value to be reported are meaningless, since the 90th or 95th percentile values will always be higher than the average for the same data set. Therefore, in the interest of regulatory clarification, Table 3 has been modified to eliminate the required comparison of averages and higher percentiles, simply leaving in place the percentile requirement.

In view of the these considerations, in today's rule EPA finalizes the missing data provisions as proposed for both load-based and non-load-based units, save for the revision to Table 3 that removes the requirement for the average versus percentile value comparisons.

4. Will Today's Rule Affect the Way in Which Load Ranges (or “Bins”) Are Established for Missing Data Purposes?

Background

a. What Is Currently Required?

Section 2 of appendix C to part 75 provides a procedure for establishing missing data load ranges (“bins”) for NO_X emission rate, NO_X concentration, stack flow rate and fuel flow rate. The procedure consists of establishing 10 (or, in some cases, 20) load ranges, which are defined as percentages of the maximum hourly gross load of the unit.

b. What Changes Were Proposed?

EPA proposed to revise section 2.2.1 of appendix C, particularly the method of determining the maximum hourly average gross load (MHGL) for cogeneration units or other units for which some portion of the heat input is not used to produce electricity. The MHGL for such units would be determined by converting the maximum rated hourly heat input of the unit to an equivalent electrical output in megawatts. The maximum rated hourly unit heat input would include the maximum potential heat input from auxiliary combustion sources, such as duct burners or auxiliary boilers. The efficiency of the unit would be used in conjunction with the maximum unit heat input to calculate the MHGL. Having established the maximum hourly gross load, the missing data load ranges would then be determined as percentages of the MHGL.

c. What Changes Is EPA Finalizing?

EPA is not adopting these proposed changes, based on the comments received. Today's final rule retains the existing text of section 2.2.1 of appendix C.

Discussion

EPA received significant adverse comments on the proposed changes to section 2.2.1 of appendix C. Two commenters objected to the proposed removal of the option to use hourly gross steam load to establish the load bins (UARG, Machaver). The commenters also raised technical questions and issues. Concerns were expressed that the proposed method of converting heat input to equivalent electrical output would underestimate the electrical output of the steam turbine for combined cycle units, and that the method does not provide a means of accounting for hourly load contributions from the duct burner during fuel flowrate missing data periods (UARG, Machaver). After consideration of these comments, EPA is not finalizing the proposed changes to section 2.2.1 and retains the existing rule text.

B. Low Mass Emissions Units

1. Does Today's Rule Change the Qualification Requirements for Low Mass Emissions Units?

Background

a. What Is Currently Required?

In October, 1998, EPA promulgated the low mass emissions (LME) methodology in § 75.19, which provides certain qualifying units an alternative means of complying with part 75 without installing continuous monitoring systems. For an Acid Rain Program unit to qualify to use the LME methodology, § 75.19(a) states that the unit must be oil- or gas-fired, combusting only natural gas or fuel oil, and must demonstrate that its emissions do not exceed 25 tons of SO₂ and 50 tons of NO_X per year. This demonstration must consider both actual (or projected) emissions and emissions calculated as set forth in § 75.19. For a non-Acid Rain unit subject to a State or Federal NO_X emissions reduction program that adopts the monitoring provisions of subpart H of part 75, if the unit reports NO_X mass emission data only during the ozone season, § 75.74(c)(10) states that the unit can qualify for LME status if it demonstrates that its emissions do not exceed 25 tons of NO_X per ozone season. The existing text of part 75 does not specify a LME NO_X emission Start Printed Page 40401threshold for non-Acid Rain subpart H units that report emissions data on a year-round basis.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed to revise paragraph (a) of § 75.19 to more clearly state the LME applicability criteria for Acid Rain Program units and non-Acid Rain subpart H units. The revisions would make a distinction between sources that report emission data on a year-round basis and those that report data only during the ozone season. These changes were proposed to help owners and operators of non-Acid Rain Program units to more easily determine whether a unit can qualify for LME status. EPA proposed to clarify what the LME thresholds are for Acid Rain Program units and subpart H units.

EPA also proposed to make a minor revision to the definition of a LME unit in § 75.19(a)(1) by removing from the definition the terms “gas-fired” and “oil-fired” and adding a parenthetical, “(i.e., diesel fuel or residual oil)” after the words, “fuel oil”. The Agency did not propose to expand the use of LME methodology beyond units that burn fuel oil and natural gas.

c. What Changes Is EPA Finalizing?

EPA received substantive comments on the proposed clarification of the applicability of the LME methodology, requesting that the criteria to qualify for LME status be made less restrictive. In response to these comments, today's rule increases the NO_X low mass emissions threshold for year-round reporters from 50 to less than 100 tons per year and increases the NO_X low mass emissions threshold for ozone season-only reporters from 25 to 50 tons per ozone season. For units that choose to (or are required to) report emissions data on a year-round basis, no more than 50 tons of the annual NO_X limit may be emitted during the ozone season. Today's rule also revises the definition of a “low mass emissions unit” in § 72.2 , expanding the applicability of the LME provisions to include units that burn gaseous fuels other than natural gas.

Discussion

Two commenters requested that EPA raise the NO_X emission thresholds for LME qualification (KeySpan Corporation (KeySpan); PSEG Fossil LLC (PSEG)). One commenter recommended raising the annual NO_X threshold to 100 tons per year, noting that many peaking units emit less than 100 tons of NO_X per year and that such units are often unmanned, making it difficult to properly maintain and operate continuous monitoring systems (KeySpan). Another commenter asked EPA to consider raising the LME threshold for ozone season-only reporters to 100 tons per ozone season (PSEG). In response to these recommended rule changes, EPA performed additional data analysis to see if raising the LME thresholds for NO_X could be justified, consistent with the principles EPA articulated in the 1998 rule for limiting eligibility to use LME. The results of that data analysis showed that raising the annual NO_X threshold from 50 to under 100 tons per year and increasing the ozone season threshold from 25 to 50 tons per ozone season are both defensible and consistent with the Agency's original intent, and accomplish Clean Air Act objectives. In the October 27, 1998 final rule, Finding of Significant Contribution and Rulemaking for Certain States in the Ozone Transport Assessment Group (OTAG) Region for Purposes of Reducing Regional Transport of Ozone (63 FR 57485), EPA laid out the applicability criteria for LMEs and initially concluded that NO_X thresholds as high as those adopted today would result in inappropriate types of sources being able to use LME, and in too many tons of NO_X emissions being exempted from CEMS. However, based on the extensive data EPA has subsequently collected under the Acid Rain Program and the Ozone Transport Commission (OTC) NO_X Budget Program, and in response to numerous persuasive source-specific petitions as well as comments on the proposed rulemaking, EPA has re-assessed its position in 1998, and now concludes that a cutoff of less than 100 tons NO_X per year, no more than 50 tons of which may be emitted in any ozone season, is both defensible and reasonable, as discussed below.

There are a number of reasons that the Agency is electing to reopen this issue at this time. First, a considerable number of units that currently are not subject to the Acid Rain Program (ARP), and thus part 75 monitoring, will be required to continuously monitor their emissions under part 75 as a result of the implementation of the NO_X SIP Call. These units include a number of smaller existing units that Congress explicitly exempted from the Acid Rain Program under title IV of the Act. Some of these turbines currently monitor under the provisions of the OTC NO_X Budget Program, generally by using default monitoring approaches, while others are located in other NO_X SIP Call States. In addition, these units include units less than 25 MWe that some OTC States have included in their NO_X SIP Call programs, as well as non-EGUs that are covered by the NO_X SIP Call. In some States, these units become subject to part 75 monitoring as early as the 2002 ozone season as part of the States' implementation of their NO_X SIP Call-related programs. These non-Acid Rain Program units face the expenditure of considerable resources to measure a rather limited portion of the total NO_X emissions.

Also, many new units being built to fulfill increased electricity demand are unmanned, gas-fired turbines with low NO_X burner technology. These units, in many cases, will be required to account for emissions under State implementation plans to reduce NO_X in the NO_X SIP Call regions of the eastern United States. Unlike units with add-on technologies (such as selective catalytic reduction (SCR)) where continual oversight is required to maintain low emissions performance, these units reliably operate at a low and consistent emissions level. Consequently, the degree of confidence the Agency can have in the attainment of overall program goals has increased, while the risks associated with underestimation of emissions from these units appears less significant. For unmanned sites, the use of CEMS provides additional challenges for owners and operators and these concerns are an additional reason for the Agency to evaluate the LME provisions.

In evaluating the LME provisions, the Agency has established a de minimis test as an internal program check to assure that only a de minimis level of emissions from all regulated sources are allowed to use exemptions from the Acid Rain Program or monitoring methods under Part 75 (including the new unit exemption, appendix E and LME provisions). In the October 27, 1998 Federal Register, when the Agency last considered this issue (63 FR 57486), the de minimis evaluation was based on, among other things, projections of the cumulative effect of the new National Ambient Air Quality Standards (NAAQS) for ozone (O3), NO_X SIP Call, Phase II of the ARP, and other State and regional programs (such as the OTC). The 1998 preamble established a one percent de minimis threshold of about 20,000 tons per year, covering all CEMS-exempted methods, on the basis of preliminary information which indicated that future NO_X emissions after implementation of these various CAA programs would be approximately two million tons per year. This de minimis threshold constituted a revision of the approximately 40,000 ton level EPA had originally discussed in Start Printed Page 40402the 1993 rule for CEMS-exempted methods.

Since that time, the Agency has developed updated information on projected year 2010 emissions from the utility sector. First, in 1999, pursuant to the CAA Amendments EPA published its section 812 prospective study of benefits under the CAA (Final Report to Congress on Benefits and Costs of the Clean Air Act, 1990 to 2010, EPA 410-R-99-001). This document estimates that total utility emissions would be approximately 3.7 million tons per year in 2010. The analysis assumes implementation of the NO_X SIP Call in the entire OTAG modeling domain. In fact, the SIP Call covers only a portion of the OTAG region (excluding States in EPA Region 1 (ME, NH, and VT), Region 4 (FL and MS), Region 5 (MN and WI), Region 6 (AR, LA, OK, and TX), Region 7 (IA, KS, NE), and Region 8 (ND and SD). Since that report, EPA has updated its estimates for 2010 post-CAA implementation NO_X emissions, and, as of October 2001, estimates approximately 4.3 million tons of NO_X per year after implementing major CAA programs such as Phase II of the Acid Rain Program and the NO_X SIP Call (see Docket No. A-2000-33, Item IV-A-7). As a result of this updated information, EPA believes that the de minimis analysis should reflect current projections and start with a one percent target level of 43,000 total tons for CEMS-exempted methods.

As indicated in the 1998 rulemaking, the Agency's determination of the appropriate level of NO_X emissions to be considered de minimis needs to be based on “all units that may be covered by the de minimis exceptions from the requirement to use CEMS, i.e. all units using the new unit exemption, appendix E, and the new low mass emissions methodology” (63 FR 57486). Because considerably more information on these regulated sources is now available, the Agency undertook a reevaluation of the potential number of various units that may choose excepted methodologies to account for their emissions rather than installing CEMS (see Docket No. A-2000-33, Item IV-A-6).

EPA's recent analysis (Docket No. A-2000-33, Item IV-A-6) shows that as of December 2001, there were 763 exempt new units. This total is significantly higher than the 1998 projection of 278 units. These units, based on EPA's tons per unit estimate developed in 1993 for the new unit exemption (see 58 FR 3590, January 11, 1993), have estimated emissions of approximately 8,700 tons. Exempt units are those new units under the Acid Rain Program that are less than or equal to 25 MWe and burn clean fuel with low sulfur content.

The next class of units subject to the de minimis threshold are units that monitor based on appendix E of part 75. These appendix E units are gas-or oil-fired peaking units. At the end of the year 2000, there were 263 appendix E units, and those units emitted slightly more than 14,000 tons of NO_X per year. In the 1998 preamble, EPA used 1997 data to show that there were approximately 235 units that used appendix E and that these units had approximately 11,000 tons of NO_X per year.

Finally, we examined the number of units that could potentially qualify for LME status under the new NO_X thresholds. We conducted the analysis for both ARP units and non-ARP units that will become subject to part 75 under the NO_X SIP Call. For this analysis, we used emissions data from the ARP and OTC programs and data from the NO_X SIP Call baseline inventories to evaluate multiple years of emissions data for each unit. We assumed that units' actual rates would be comparable to their fuel- and unit-specific tested emissions rates as allowed for under the LME provisions except for units with rates less than 0.15 lb/mmBtu, where we used 0.15 lb/mmBtu as a default given the requirements in § 75.19. The other assumptions and details of the analysis are included in Docket Item IV-A-6.

For Acid Rain Program units only, the change from a 50 to 100 tons of NO_X per year threshold would increase the number of existing units that could qualify by about 50 units with a total of 3,000 tons. This excludes appendix E units that already qualify for de minimis monitoring. This increase in potential LME units, taken together with emissions from appendix E units and exempt new units, would result in approximately 27,000 tons of NO_X per year subject to the de minimis target level.

For the NO_X SIP call, the increase from a threshold of 25 tons of NOX per ozone season to 50 tons per ozone season could increase the total number of existing non-ARP units that may qualify for LME by slightly more than 200 units. About 70 of those units are units in the OTC region that are under 25 MWe and currently monitor using default values under the OTC NO_X Budget Program. These units generally would also qualify for appendix E monitoring if the NO_X threshold was not increased. The total increase in tons that may be monitored using appendix E or LME provisions under an increased ozone season NO_X threshold would be approximately 2,000 tons per ozone season (an increase from about 5,500 to 7,500 tons per ozone season from these non-ARP units). Together with the estimated total of 27,000 tons per year NO_X from the ARP units, the total amount of emissions from units within the group under the de minimis concept conservatively represents approximately 35,000 tons of emissions. This total remains below the 43,000 tons target level based on one percent of projected year 2010 emissions and allows for future growth of new units that qualify for LME, appendix E, or the new unit exemption. It is also important to remember that the LME analysis accounts for units that could potentially qualify for LME monitoring requirements; not all units that potentially qualify will necessarily use the LME provisions. For example, the 1998 preamble (63 FR 57487) estimated that 224 units would qualify at the LME thresholds promulgated at that time. In the year 2000, two units used the LME provisions. Since that time, the number has increased quickly, primarily because of new turbine units that likely also would qualify for the appendix E methodology.

It is important to note that units electing alternative methodologies such as LME status and appendix E are still accountable for all their emissions using default emissions values or conservative test results. What they are relieved from is installing CEMS. The Agency was able to evaluate the long term (quarterly) emission rates for a number of units that had switched from the use of appendix E to the use of CEMS over the past few years. That study (see Docket No. A-2000-33, Item IV-A-8) examined 41 ARP units, and paired quarters from similar seasons with a minimum number of operating hours. While the lack of data from simultaneous time periods limits the ability to draw precise conclusions from this analysis, the analysis did show that the quarterly emission rates were, on average, slightly higher when units measured with appendix E rather than CEMS (approximately 4 percent). Because the appendix E and LME provisions rely on the same basic test procedures to establish a fuel- and unit-specific default rate, this analysis is relevant to the LME provisions as well. The Agency believes this analysis also supports the change in the LME thresholds that EPA is finalizing in this rulemaking by indicating that significant under-reporting of emissions should not occur as a result of using the LME provisions. We also think it provides further support for the reliability of estimates in Start Printed Page 40403our de minimis analysis that is based primarily on existing CEMS data for estimating the tonnage from potential LME units.

At the same time, the analysis did indicate that in particular situations, appendix E values could be below reported CEMS values. In light of this finding that appendix E (and by extension LME) monitoring will not always produce conservative values, use of alternative methods of monitoring should remain constrained by the de minimis threshold EPA has established. This finding also suggests that these monitoring methods may not be appropriate alternatives to CEMS in other programs (such as trading programs with much lower caps, or programs with short term emission limits such as Best Available Control Technology (BACT) or Lowest Achievable Emission Rate (LAER) requirements established through New Source Review permits).

Cumulatively, the data indicate that if the LME threshold were raised to 50 tons per ozone season, it would allow 95 percent of the numerous small units in the OTC NO_X Budget Program that currently use non-CEMS methodologies (which are, in many cases, similar to LME) to qualify as LME units under the NO_X Budget Trading Program. If the threshold were not raised, only about 65 percent of these same small units could qualify as LME units. EPA considers a less burdensome transition for these smaller units from the OTC Program to the larger NO_X Budget Trading Program to be highly desirable. Allowing these units to use LME methodologies under part 75 (which are similar to methodologies currently used under the OTC Program), rather than CEMS requirements under part 75, will reduce economic and administrative burden for both the affected sources and the regulatory agencies. Further, LME methodologies are reasonably accurate methods given the small amount of emissions contributed by this class of units. In view of these considerations, EPA has concluded that there are distinct benefits, and no significant environmental risks, in raising the LME qualifying NO_X thresholds to 50 tons per ozone season and less than 100 tons per year, respectively. Therefore, these higher emission threshold values are promulgated in today's rule. However, note that for units subject to the NO_X Budget Trading Program, the final rule places a constraint on the 100 tons per year NO_X limit: no more than 50 of the 100 tons per year may be emitted during the ozone season. EPA has added this constraint for purposes of consistency, so that all NO_X Budget units using the LME methodology will be limited to 50 tons of NO_X emissions per ozone season, whether data are reported on a year-round basis or only during the ozone season. In addition, should cost of monitors go down, or if the ceiling turns out to be much lower than that which we have projected herein, the Agency reserves the right to re-assess any and all of these exceptions in the future if the need arises.

Regarding the definition of a LME unit as presented in § 72.2 and in § 75.19(a), one commenter questioned why the definition appears to restrict LME qualification to units that burn only fuel oil and natural gas (UARG). The commenter suggested that the broader terms “gas-fired” and “oil-fired” be used as the criteria for determining LME applicability so that units burning “other” gaseous fuels, such as landfill gas, would also be allowed to use the LME methodology. After careful consideration of these comments, EPA agrees that there is no compelling reason for excluding other types of gaseous fuels from LME applicability. Further, the Agency believes that this change will reduce the administrative burden on both the sources and the regulatory agencies, by providing a way for low-emitting sources that burn “other” gaseous fuels to meet part 75 requirements without having to submit special petitions under § 75.66. Therefore, today's rule expands the applicability of the LME methodology to include units that burn gaseous fuels other than natural gas.

In order for a unit that burns one of these “other” gaseous fuels to qualify as a LME unit, fuel- and unit-specific default emission rates would have to be established. If the unit is Acid Rain-affected, § 75.19(a)(1)(i)(C) of today's rule requires the sulfur content of the fuel to be characterized by performing the 720-hour demonstration described in revised section 2.3.6 of appendix D, before the unit can qualify for LME status. The results of that demonstration may be used to determine a default SO₂ emission rate for the fuel, unless the fuel is found to have both a high sulfur content and a high sulfur variability (i.e., variability with a standard deviation of greater than 5.0 grains per 100 scf); should that occur, the unit would be ineligible for LME status. To derive a default CO₂ emission factor for the fuel, revised § 75.19(c)(1)(iii) requires Equation G-4 in appendix G to be used, in conjunction with a carbon-based F-factor calculated from the results of fuel sampling and analysis. To determine the default NO_X emission rate for the gaseous fuel, revised § 75.19(c)(1)(ii) requires fuel- and unit-specific emission testing to be performed.

2. How Does Today's Rule Change the Certification Application Procedures and Requirements for Low Mass Emissions Units?

Background

a. What Is Currently Required?

In response to concerns raised by both regulated entities and other regulatory agencies, EPA examined the administrative procedures in part 75 pertaining to LME units, especially the certification application procedures. It was determined that these procedures could be clarified to simplify program implementation and to make the LME requirements as consistent as possible with other sections of part 75.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed requiring the electronic portion of the LME certification application be sent to the Administrator and the hardcopy portion to the appropriate Region and State. The Agency also proposed requiring that LME certification applications be submitted no less than 45 days prior to the date on which use of the methodology is projected to commence; and the projected commencement date be indicated in the application.

In addition, EPA proposed clarifications to the requirements for new or newly affected units and the extent to which a LME applicability demonstration could rely on projected emissions instead of actual, historical data. Finally, EPA proposed clearer definitions for the date of provisional certification for LME units.

c. What Changes Is EPA Finalizing?

Today's rule finalizes the provisions requiring submission of the LME certification application at least 45 days before the methodology is projected to be used and specification of the projected commencement date in the application. The final rule also clarifies that the methodology is considered to be provisionally certified as of the date of submittal of the certification application, but may not be used to report data prior to the projected commencement date.

In response to substantive comments regarding the initial LME certification application procedures, in particular the manner in which actual historical emissions data, projected emissions, and calculated emissions are used to demonstrate that a unit qualifies for LME status, today's rule adds significant flexibility to the way in which a unit Start Printed Page 40404can initially qualify. The final rule allows existing units to claim LME status using projected emissions rather than historical data, if a Federally enforceable permit restriction is taken which limits unit operation, or if the owner or operator has recently installed emission controls on the unit.

Today's rule also simplifies the application procedure by removing from § 75.19(a)(2) the requirement that the certification application must include calculated emissions for the previous three years in addition to the actual historical data for those years. For purposes of the initial certification application, the final rule allows the owner or operator of a new unit to use conservatively high default NO_X emission rates other than the values listed in Table LM-2 to project the unit's emissions.

Discussion

EPA received no comments on the proposed changes and clarifications to the LME administrative processes. Therefore, these provisions have been finalized, with only minor editorial changes for added clarity and consistency. However, two commenters objected to the manner in which an existing unit qualifies for LME status, believing it to be overly restrictive (West Virginia Manufacturers Association, PSEG). The rule requires three years or ozone seasons of historical data to demonstrate that the unit is a LME. The commenters objected to this provision because it automatically excludes units if their recent historical NO_X emissions have been above the LME thresholds, even if the source owner or operator is willing to take an enforceable permit restriction on the number of operating hours in future years. Both commenters recommended that § 75.19 be revised to conditionally allow existing units to qualify for LME status prospectively, rather than retrospectively. A third commenter objected to the apparent requirement in § 75.19(a)(2)(i) for new units to use the generic NO_X default emission rates from Table LM-2 to project the unit's NO_X emissions in the initial certification application (Machaver). The commenter recommended that EPA allow the use of a conservative but more realistic estimate of the unit's emissions (e.g., the permitted NO_X emission limit or 0.15 lb/mmBtu for units with add-on controls) for the purpose of the initial certification application.

After consideration of these comments, EPA has revised the requirements for a unit to initially qualify as a LME unit. The revisions to § 75.19(a) affect both new and existing units. The final rule allows the owner or operator to claim LME status for a unit in the following ways:

1. Using three years (or ozone seasons) of actual data from electronic data reporting (EDR) submittals under part 75 or under the OTC NO_X Budget Program or, if such reports are unavailable, using estimates of the actual emissions from other sources of information (including default emission rates, emission rates derived from stack testing or part 60 CEMS, fuel sampling results, fuel usage records); or

2. Based on three years (or ozone seasons) of projected emissions for new units with no actual, historical data; or

3. Using a combination of actual and projected emissions totaling three years (or ozone seasons), if :

(a) Three years (or ozone seasons) of actual emissions data cannot be provided (e.g., for a unit that has been in operation for only one or two years); or

(b) An existing unit takes a Federally enforceable permit restriction on unit operating hours in order to stay below the LME emission thresholds; or

(c) The emissions during any of the three previous years (or ozone seasons) are not representative of present or future emissions because the owner or operator has recently installed emission controls on the unit.

Section 75.19(a)(4) of today's rule also allows the owner or operator of a new unit to use default NO_X emission rates other than the ones in Table LM-2 to project the unit's emissions in the initial certification application. The final rule allows the use of estimated NO_X emission rates which are lower than the Table LM-2 values, provided that the estimates are still conservatively high with respect to the expected actual emission rates. For instance, for a new gas-fired turbine that uses selective catalytic reduction (SCR) to control NO_X emissions, an estimated emission rate of 0.15 lb/mmBtu could be used in lieu of the Table LM-2 generic default of 0.7 lb/mmBtu. For units that use water/steam injection or dry low-NO_X (DLN) technology, an emission rate based on the permit limit could be used. For units without NO_X emission controls, the emission rate estimate could be based on historical emission test data. However, § 75.19(a)(4) makes it clear that these estimated NO_X emission rates are to be used only for the purposes of the initial certification application. The estimated emission rates may not be used for reporting purposes in the time period extending from the first hour in which the LME methodology is used to the date and hour in which the actual emission rate is established by fuel- and unit-specific emission testing. During that interval, either the Table LM-2 value or the maximum potential emission rate must be reported. EPA believes that these new provisions in § 75.19(a)(4) will ensure that new units are not unfairly excluded from using the LME methodology and will also provide a strong incentive to the owners or operators to perform the NO_X emission rate testing in a timely manner.

EPA notes that when the initial estimate of NO_X emission rate for the LME certification application is derived from historical emission test data, it may be prudent to base the estimate on data collected under process operating conditions (e.g., heat input rate, unit load.) comparable to those at which the highest NO_X emission rates are expected to occur during the four-load appendix E test. This will help to ensure that the unit's LME status is not jeopardized since the estimated NO_X emission rate will likely be close to the actual default emission rate that is derived from the appendix E testing and used for emissions reporting.

3. How Will Today's Rule Affect the Way in Which Fuel- and Unit-Specific NO_X Emission Rates Are Determined for Low Mass Emissions Units?

Background

a. What Is Currently Required?

The low mass emissions methodology in § 75.19 provides two options for determining the appropriate default NO_X emission rate for a unit. The owner or operator may either use a generic default emission rate from Table LM-2, or determine a fuel- and unit-specific default NO_X emission rate by performing emission testing, using appendix E test methodology. If the testing option is selected, § 75.19(c) specifies how to determine the default emission rate. For uncontrolled units, the default emission rate is the highest rate obtained from the emission testing, multiplied by 1.15. The reason for the 1.15 multiplier is to prevent underestimation of emissions, since the NO_X emission rate can vary at a given load. For units with NO_X emission controls of any kind, the default emission rate is the higher of: (a) the highest rate from the emission testing multiplied by 1.15; or (b) 0.15 lb/mmBtu. The reason for specifying a “floor” emission rate value of 0.15 lb/mmBtu for units with NO_X emission controls is principally to ensure that large units with a high potential to emit and with controls such as SCR and selective non-catalytic reduction (SNCR) would not use the LME provisions to estimate emissions. Units with these Start Printed Page 40405controls can achieve emissions rates much lower than 0.15 lb/mmBtu and therefore would not want to use the 0.15 lb/mmBtu floor under the LME provisions to report their emissions. EPA believes that for units with such controls, continuous NO_X emission monitoring is the preferred way to determine that a unit achieves its target control level. This is because the NO_X emission reductions achieved with these controls can vary significantly with the manner in which the controls are operated and the manner of proper operation is difficult to document and demonstrate.

After promulgating the LME provisions on October 27, 1998, EPA continued to investigate the causes of variability in NO_X emission rates in combustion turbines by reviewing literature, reviewing test results, analyzing CEMS data for turbines, and discussing turbine operation with turbine and utility experts (see Docket A-2000-33, Item II-B-1). The result of the investigation was confirmation that temperature, pressure, and, in particular, humidity affect the NO_X emission rate in combustion turbines. The investigation revealed that several empirically-derived mathematical algorithms have been developed to correct a measured NO_X concentration to a theoretical NO_X concentration at a different temperature, pressure, and humidity, including the equation in subpart GG, Standards of Performance for Stationary Gas Turbines (40 CFR 60.335).

EPA also investigated the claims of industry representatives who asked the Agency to consider allowing the use of controlled fuel- and unit-specific NO_X emission rates below the 0.15 lb/mmBtu minimum for turbines with water injection, steam injection, or water/fuel emulsion. The representatives had stated that if the water-to-fuel ratio were monitored each hour, the use of a fuel- and unit-specific default for times when the water-to-fuel ratio was within acceptable limits would not underestimate emissions. To substantiate these claims, EPA reviewed data from CEMS installed at turbines with water-and-steam injection and water/fuel emulsion. As a result of this review, EPA concluded that if the water-to-fuel ratio is monitored, effective and constant control of NO_X will be achieved, with little chance of underestimation of NO_X emissions (see Docket A-2000-33, Item II-B-1).

b. What Changes Were Proposed?

As a result of these two investigations, EPA proposed the following revisions to § 75.19(c) on June 13, 2001. First, EPA proposed adding a new requirement for certain turbines to correct measured NO_X concentrations to ambient conditions of temperature, pressure, and relative humidity at the time of the emission test. This proposed correction (Equation LM-1a in § 75.19(c)(1)(iv)(A)(4)) would apply only to uncontrolled diffusion flame style turbines. It would compensate for temperature and humidity effects on NO_X formation by correcting the measured NO_X concentrations at the test conditions to the average annual temperature, atmospheric pressure, and humidity at the location of the turbine. It also would prevent underestimation or overestimation of NO_X emissions for uncontrolled diffusion flame turbines and would remove the requirement to multiply the measured NO_X emission rates for such turbines by 1.15.

Second, EPA proposed revising § 75.19(c)(1)(iv)(H)(1) to allow the use of measured fuel- and unit-specific NO_X emission rates for units with water or steam injection (and no other type(s) of add-on NO_X controls), even if the measured emission rates are below 0.15 lb/mmBtu. This proposed change would remove the current rule requirement that all tested emission rates below 0.15 lb/mmBtu must be adjusted upward to a default value of 0.15 lb/mmBtu. The proposed change would require units with steam or water injection to monitor the water-to-fuel or steam-to-fuel ratio in order to give assurance that the emission controls are operating properly.

c. What Changes is EPA Finalizing?

EPA received numerous substantive comments on the proposed changes to § 75.19(c). Based on these comments, the Agency finalizes the proposed revisions to § 75.19(c)(1)(iv)(A)(4) with only minor editorial changes, but modifies the proposed changes to § 75.19(c)(1)(iv)(H)(1). Today's rule requires fuel- and unit-specific NO_X emission rates for uncontrolled diffusion flame turbines to be corrected to ISO standard conditions, and removes the requirement to multiply the tested emission rates by 1.15. The final rule also allows units that use steam (or water) injection and have no other add-on controls, or DLN technology and have no other add-on controls, to use the highest tested emission rate for reporting purposes during controlled hours instead of reporting 0.15 lb/mmBtu. Units equipped with SCR or SNCR controls still must report the “floor” NO_X emission rate of 0.15 lb/mmBtu if it is higher than the tested emission rates, with one exception: if the unit uses steam (or water) injection or DLN technology in addition to the SCR or SNCR controls, then the highest tested emission rate may be reported for controlled hours in lieu of reporting 0.15 lb/mmBtu, provided that the emission testing is performed either upstream of the SCR (or SNCR) or at a time when the SCR (or SNCR) is not in operation.

Discussion

Two commenters objected to the provision requiring units that use NO_X emission controls other than water or steam injection to adjust their tested emission rates upward to 0.15 lb/mmBtu (Clean Air Energy; Exelon Corporation (Exelon)). In particular, the commenters noted that for combustion turbines using DLN control technology, the 0.15 lb/mmBtu “floor” emission rate is several orders of magnitude higher than the guaranteed emission levels from such units. One of the commenters recommended that EPA treat turbines with DLN control in the same manner as turbines that use water or steam injection (Exelon). That is, EPA should allow the highest tested emission rate to be reported during hours in which parametric data are available to document proper operation of the DLN controls. The commenter provided supplementary information, suggesting parameters that could be monitored to ensure that the DLN is operating in the low-NO_X, or premixed, mode.

Based on the supplementary information provided by the commenter and discussions with turbine experts (see Docket A-2000-33, Item IV-A-1), EPA has decided to incorporate the commenter's suggestion to treat LME units with DLN technology in the same manner as LME units with water-and-steam injection. Today's rule allows the highest emission rate from the appendix E tests to be reported as the default NO_X emission rate for the unit, if proper operation of the emission controls is documented. Section 75.19(c)(1)(iv)(H) of the final rule specifies that for DLN technology, “proper operation” of the emission controls means that the unit is in the low-NO_X or premixed combustion mode and fired with natural gas. Evidence of operation in the low-NO_X or premixed mode is provided by monitoring the appropriate turbine operating parameters. These parameters may include percentage of full load, turbine exhaust temperature, combustion reference temperature, compressor discharge pressure, fuel and air valve positions, dynamic pressure pulsations, internal guide vane (IGV) position, and flame detection or flame scanner condition. The acceptable values and ranges for all parameters Start Printed Page 40406monitored must be specified in the monitoring plan for the unit, and the parameters must be monitored during each unit operating hour. If one or more of these parameters is not within the acceptable range or at an acceptable value in a given operating hour, or if the unit is fired with oil, the fuel- and unit-specific NO_X emission rate may not be used for that hour and the appropriate default NO_X emission rate from Table LM-2 must be reported, instead.

Two commenters recommended that EPA revise §§ 75.19(c)(1)(iv)(C)(4) and (c)(1)(iv)(C)(6) to allow units with NO_X emission controls of any kind to use the Federally-enforceable permit limit to determine the default NO_X emission rate for an LME unit, and then to use the required periodic testing under title V of the CAA to verify that the emission limit is being met (Class of ‘85 Regulatory Response Group (Class of ‘85); Reliant Energy (Reliant)). EPA did not incorporate the commenters’ suggested approach, although the Agency notes that today's rule provides some relief to controlled units from the requirement to use 0.15 lb/mmBtu as the default emission rate when the tested NO_X emission rates are less than 0.15 lb/mmBtu. In the final rule, that requirement applies only to units that use SCR or SNCR for NO_X emission control. In all other cases, LME units with NO_X emission controls may use their highest tested emission rate as the default value during controlled hours.

For add-on controls such as SCR or SNCR, proper operation of the controls depends on whether the desired chemical reaction necessary to reduce NO_X emissions is actually occurring which, in turn, depends on many factors (e.g., whether the catalyst is active, whether the reagent injection rates are appropriate). Other than direct measurement of emissions using a CEMS or reference method, there is no known way to ensure that the catalyst or injected reagents are producing the expected emission reductions. Periodic title V emission testing, as recommended by the commenter, would not provide adequate assurance that the SCR or SNCR controls are operating properly on a continuous basis; because the test is “periodic,” at best it shows these controls are working when the test is being performed. Therefore, the final rule retains the requirement to use the 0.15 lb/mmBtu “floor” NO_X emission rate for units equipped with SCR or SNCR. EPA notes, however, that if a unit uses SCR (or SNCR) and steam/water injection, the final rule allows the highest tested emission rate (provided it is less than 0.15 lb/mmBtu) to be used in lieu of 0.15 lb/mmBtu, if the steam/water injection is operational during the emission testing and if the testing is either performed upstream of the SCR (or SNCR) or with the SCR (or SNCR) not operating. Similarly, for a unit that controls NO_X emissions using DLN technology and SCR (or SNCR), the highest tested emission rate may be used provided that it is less than 0.15 lb/mmBtu, and the testing is performed when DLN technology is in use and the SCR (or SNCR) is not operating (see §§ 75.19(c)(1)(iv)(C)(7) and 75.19(c)(1)(iv)(C)(8)).

4. Does Today's Rule Allow Testing To Be Done at Fewer Than Four Load Levels To Determine Fuel- and Unit-Specific NO_X Emission Rates for Low Mass Emissions Units?

Background

a. What Is Currently Required?

The current LME provisions in § 75.19(c)(1)(iv)(A) require testing at four load levels, using the test methodology in appendix E of part 75, for all units which opt to determine a default fuel- and unit-specific NO_X emission rate. Industry representatives have asked that this requirement be waived for units which operate at a single load only.

b. What Changes Were Proposed?

In the June 13, 2001 proposed rule, EPA proposed and solicited comments on two options as alternatives to the four load testing requirement for LME units. Option 1 would require the first appendix E test to be performed at four loads, with future single load re-tests at the load level at which the highest emission rate was found. Option 2 would allow single-load testing for units that provide a demonstration that the unit operates at a single load level.

In the preamble to the proposed rule, EPA expressed a preference for Option 2. Therefore, the Agency proposed adding a new section, (I), to § 75.19(c)(1)(iv) which is consistent with Option 2. The proposed revisions would conditionally allow single-load testing to be performed if the owner or operator demonstrates that the unit has operated at a single load level for at least 85 percent of the time in the three years prior to the emission test. Turbines that operate at a set-point temperature and not at a particular load level would also be conditionally allowed to perform single level testing, if it can be demonstrated that the unit has operated within ± 10 percent of the set-point temperature for at least 85 percent of the time in the three years prior to the emission test. EPA also proposed in § 75.19(c)(1)(iv)(I) that for a set-point turbine which normally operates at base load but is capable of operating at a higher (peak) load level, if the emission testing is only performed at base load, then the fuel- and unit-specific NO_X emission rate obtained from the testing would have to be adjusted upward during peak load operation by using a multiplier of 1.15 to ensure that emissions are not underestimated.

c. What Changes Is EPA Finalizing?

EPA received numerous substantive comments on the proposed options for reducing the number of required load levels at which testing is required to determine fuel- and unit-specific NO_X emission rates for LME units. After carefully considering these comments, the Agency has decided to incorporate both of the proposed Options 1 and 2 into the final rule. These provisions are found in §§ 75.19(c)(1)(iv)(I) and (J) of today's rule. EPA notes that Option 2 has been modified somewhat from the proposal. The final rule allows testing of LME units to be performed at either one, two, or three loads instead of four, based on the results of a historical load analysis for the previous three years (or three ozone seasons for sources that report emissions data only for the ozone season). The testing is required at however many load levels cumulatively represent at least 85 percent of the unit operating hours in the previous three years (or ozone seasons).

Discussion

One commenter supported proposed Option 2, but requested that EPA allow the demonstration of single-load operation to be made using only ozone season data for sources that report data on an ozone season-only basis (Massachusetts Department of Environmental Protection (Massachusetts DEP)). Another commenter favored Option 1 over Option 2, because Option 2, although “reasonable,” could only be used by a subset of LME units (NorthWestern Energy & Communications Solutions (NorthWestern)). Two commenters recommended that EPA allow testing to be done at two loads if historical load data for the unit demonstrate consistent operation at two load levels for at least 85 percent of the time (Massachusetts DEP, Machaver).

EPA has decided to include both proposed Options 1 and 2 in today's rule. The Agency believes that this provides sufficient flexibility for the various types of LME units to allow them to qualify for reduced testing requirements. The final rule incorporates the suggestion of the Start Printed Page 40407commenters to allow the 85 percent criterion to be applied on a cumulative operating load basis, i.e., perform the testing at the number of load levels that cumulatively account for 85 percent of the unit operating hours in the three years prior to the emission test. Today's rule also allows the historical load analysis to include only ozone season data for sources that report emissions on an ozone season-only basis. These new rule provisions are found in §§ 75.19(c)(1)(iv)(I) and (J).

C. Quality Assurance/Quality Control

1. What Changes to the Method of Determining the NO_X MPC, MEC, Span, and Range Are Finalized in Today's Rule?

Background

a. What Is Currently Required?

In recent years EPA has received many questions, pertaining especially to new combustion turbines, about the way in which the maximum potential concentration (MPC) and maximum expected concentration (MEC) are determined for NO_X and how the instrument span and range values are set for NO_X monitors. Some of the questioners have requested additional options for MPC and MEC determinations and claim that part 75 does not address dry low-NO_X (DLN) control technology, which is being used on many new turbines. Others have questioned the appropriateness of the default NO_X MPC value of 50 ppm in Table 2-2 of appendix A for new oil- and gas-fired combustion turbines.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed to add new options for determining the NO_X MPC and MEC values, principally with combustion turbines in view. The proposed rule would allow the owner or operator to use a reliable estimate of the unit's uncontrolled emissions obtained from the manufacturer as the MPC value. For units that have add-on emission controls or that use DLN technology, the Federally-enforceable permit limit could be used as the MEC.

EPA also proposed replacing the 50 ppm default NO_X MPC value in Table 2-2 for new combustion turbines with two new values: (a) 150 ppm for units that are permitted to fire only natural gas; and (b) 200 ppm for units permitted to fire both gas and oil. EPA believes, based on a preliminary data analysis of emissions from new combustion turbines, that these values are much more representative of actual NO_X emissions from turbines during unit startup and periods when the emission controls are not operational (see Docket A-2000-33, Item II-B-1).

c. What Changes Is EPA Finalizing?

EPA received no adverse comments on these proposed rule changes. Therefore, today's rule finalizes as proposed the new options for determining NO_X MPC and MEC, and the 150 ppm and 200 ppm default MPC values for new combustion turbines. The final rule also incorporates two important changes to the general approach for determining MPC, MEC, span, and range based on recommendations made by the commenters. First, today's rule allows CEMS data from a monitor certified under 40 CFR part 60 or under a State program to be used to make the initial MPC or MEC determinations. Second, for units with a dual span requirement for SO₂ or NO_X, the final rule places an upper limit on the full-scale range setting of the low-scale analyzer in cases where the owner or operator selects the default high range option in lieu of operating and maintaining a high monitor range. Today's rule restricts the full-scale range of the low-scale analyzer to five times the MEC value (where the MEC is rounded upward to the next highest multiple of 10 ppm).

Discussion

Two commenters supported the proposed new option to allow the use of a reliable manufacturer's estimate of a unit's uncontrolled emissions as the MPC value (UARG; Dynegy, Inc. (Dynegy)). No comments were received on the proposal to use the permit limit as the MEC for a unit with emission controls, and no comments were received on the proposed default MPC values for new combustion turbines. Therefore, in the absence of adverse comments these provisions are finalized for the reasons stated in the proposal. While these rule changes could require owners and operators of combustion turbines currently using the 50 ppm NO_X MPC value from Table 2-2 of appendix A to change their MPC and span values, the Agency believes that many have already done so in their required annual re-evaluations of span, range, MPC, and MEC values for each monitor. In other words, the owners and operators of new combustion turbines using the 50 ppm MPC value from Table 2-2 have likely found, upon analysis of actual data, that the value is unrealistically low and requires upward adjustment. The Agency expects that this rule change will primarily affect new units, rather than existing units. However, since there may be some existing units still using the 50 ppm MPC value, and since span changes may require new calibration gases to be purchased and, in some instances, may necessitate analyzer replacement, EPA has provided additional time in the rule language from the effective date of today's rule for owners and operators to implement the new MPC provision (see Section V., Rule Implementation, of this preamble).

EPA received additional comments on the span and range provisions of part 75. Two of these, provided by the same commenter (Machaver), are incorporated into the final rule. The commenter asked EPA to consider expanding the range of methods for establishing an initial MPC or MEC value. The commenter stated that especially for newly-affected units, the use of “reasonable, relevant, and appropriate” data, such as CEMS data from a part 60 monitor or historical emission test data, should be allowed. EPA believes that this suggestion has merit, particularly in view of the many sources that will soon be required to implement the monitoring provisions of part 75 under the NO_X SIP Call. Therefore, today's rule allows any available quality-assured CEMS data (whether from a part 75 monitor, a part 60 monitor, or one that meets State requirements) to be used for the initial MPC and MEC determinations. In as much as these initial determinations are self-correcting (i.e., appendix A §§ 2.1.1.5 and 2.1.2.5 require an annual review) and there are sufficient incentives to ensure proper specification (i.e., exceeding a full-scale range necessitates substitution of conservative emissions factors under appendix A § 2.1.2.5(b)), the Agency sees no harm introduced by providing this additional flexibility. The new rule provision is found in sections 2.1.1.1(b), 2.1.1.2(c), 2.1.2.1(e), and 2.1.2.2(c) of appendix A. Application of these data is limited to these initial MPC and MER determinations. Continuous emission monitoring systems used for part 75 reporting must meet the certification and ongoing quality assurance requirements of part 75.

The commenter also recommended that EPA set an upper limit on the low-scale measurement range for dual span units using the “default high range” option. For sources that elect to use the default high range option, it is advantageous to set the range of the low measurement scale as high as possible to capture emission “spikes” and to minimize reporting the default high range value of twice the MPC. However, if the low range is set inappropriately high, this will result in the majority of the data being recorded at the bottom Start Printed Page 40408end of the measurement scale during normal, controlled, unit operation. Data accuracy suffers at the low end of a measurement scale due to a poor signal-to-noise ratio. To help ensure that this does not happen, the commenter recommended capping the low-scale range at five times the MEC, where the MEC is rounded to the nearest 10 ppm. EPA concurs with this suggested approach. Today's rule adds the provision to sections 2.1.1.4(g) and 2.1.2.4(f) of appendix A.

2. What Changes to the 7-Day Calibration Error Test Are Finalized?

Background

a. What Is Currently Required?

The 7-day calibration error test described in sections 6.3.1 and 6.3.2 of appendix A of part 75 is required only for initial certification, recertification, and occasionally as a diagnostic test. It is not a routine, required, periodic quality assurance (QA) test. The current rule specifies that the 7-day calibration error test data must be recorded while the unit is operating. For peaking units, the requirement for the unit to be operating during the test can be problematic. Because of the sometimes infrequent or unpredictable nature of peaking unit operation, the 7-day test may take weeks or even months to complete.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed revising the 7-day calibration error test requirement for monitors installed on peaking units, requiring data to be recorded with the unit operating for only three of the seven test days. The unit would not be required to be operating for the other four days of the test.

c. What Changes Is EPA Finalizing?

EPA received numerous comments on the proposed revisions to the 7-day calibration error test procedure. After carefully considering the comments, the Agency has decided to remove the 7-day calibration error test requirement for peaking units and for SO₂ and NO_X monitors with span values of 50 ppm or less. If a unit should lose its peaking status, it would also lose its 7-day calibration error test exemption. The owner or operator would then be required to perform diagnostic 7-day calibration error tests of all installed monitors by December 31 of the following year. Today's rule reflects these changes, in sections 6.3.1 and 6.3.2 of appendix A and in § 75.20(c).

Discussion

EPA received comments from five different commenters on the proposed revisions to the 7-day calibration error test. Four of the commenters found the scope of the proposed change to be too narrow as it only applies to peaking units (UARG, Dynegy, KVB, Machaver). One commenter stated the opinion that part 75 data quality would not be jeopardized if the 7-day calibration error test were eliminated for peaking units, if not for all units (Dominion). Two other commenters provided the following suggestions: (1) Eliminate the 7-day calibration error test for all units; or (2) allow combustion turbines to perform the test off-line for all 7 days; or (3) restrict the test to zero-level calibrations for combustion turbines (UARG, Dynegy). Finally, two commenters noted that many monitoring systems cannot pass the 7-day test using the proposed methodology, i.e., using a combination of off-line and on-line calibrations, because of differences in temperature and pressure between off-line and on-line conditions (UARG, Machaver).

EPA rejected the commenters' suggestion to eliminate the 7-day calibration error test for all affected units. The Agency believes that the test has value for frequently operated units, and the test can, in most instances, be completed in seven consecutive calendar days. The purpose of the 7-day test is to ensure that from day-to-day, a continuous emission monitor does not drift excessively while it is measuring emissions at stack conditions (e.g., stack pressure and temperature). The test provides a one-time demonstration that a monitor is capable of consistently passing daily calibrations at a specification twice as stringent as the allowable calibration error for daily monitor operation. Monitors that cannot meet this requirement are disqualified for use under part 75. When the test can be completed in seven consecutive days, it achieves its purpose.

EPA considered removing the 7-day calibration error test requirement for all combustion turbines, as suggested by the commenters. However, the Agency did not incorporate the commenters' recommendation since many combustion turbines are operated as base-load or cycling units. Because such units operate frequently, the 7-day calibration error test is appropriate and must be performed.

EPA rejected the commenter's suggestion to allow combustion turbines to perform the 7-day calibration error test while the unit is off-line. Performing the test off-line defeats the purpose of the test, which, as previously noted, is to assess the calibration drift of a monitor over a 7-day period while it is in thermal equilibrium with its stack environment. The Agency also rejected the commenter's recommendation to perform only a calibration with zero-level gas on each day of the test. EPA does not believe that it is technically justifiable to perform only half of the normal daily calibration sequence and to omit the other half. However, EPA does agree with the commenters who pointed out that performing the 7-day test using a combination of off-line and on-line calibrations would not be a viable solution for many monitoring systems.

In view of these considerations, EPA has decided to remove the 7-day calibration error test requirement for peaking units and also for SO₂ and NO_X monitors with span values of 50 ppm or less. With regard to peaking units, the Agency's decision is based principally on the difficulties associated with performing the 7-day calibration error test in a timely manner for such units. Because peaking units operate infrequently, it is often difficult to complete a 7-day calibration error test within a reasonable time since the test must be done with the unit in operation. In cases where a 7-day calibration error test may take several weeks or months to complete, the test loses its meaning. Today's rule specifies that a peaking unit remains exempt from the 7-day calibration error test requirement as long as it continues to re-qualify as a peaking unit from year-to-year or from ozone season-to-ozone season. However, if at the end of a particular year or ozone season peaking unit status is lost, the owner or operator must then perform diagnostic 7-day calibration error tests of all continuous emission monitors installed on the unit by December 31 of the following year.

EPA's decision to exempt SO₂ and NO_X monitors with span values of 50 ppm or less from the 7-day calibration error test is consistent with changes made in today's rule to section 2.1.4(a) of appendix B. As discussed below, the final rule lowers the allowable calibration error for daily monitor operation to 5 ppm for SO₂ and NO_X monitors with span values less than or equal to 50 ppm. Since the alternate performance specification in section 3.1 of appendix A for the 7-day calibration error test of SO₂ and NO_X monitors is also 5 ppm, the changes to appendix B will, in effect, require SO₂ and NO_X monitors with span values less than or equal to 50 ppm to meet the 7-day calibration error test specification every day. This makes it unnecessary to Start Printed Page 40409perform 7-day calibration error testing on these monitors.

3. What Changes to the QA/QC Requirements for Low-Emitting Sources Are Finalized?

Background

a. What Is Currently Required?

Part 75 requires owners and operators of units with SO₂ and NO_X monitors to perform daily calibration error tests of these monitors. The allowable calibration error is currently 5 percent of the span value. However, section 2.1.4(a) in appendix B of part 75 provides an alternate daily calibration specification for low emitters of SO₂ and NO_X. The alternate low-emitter specification (for span values less than 200 ppm) is 10 ppm, based on the absolute value of the difference between the tag value of the calibration gas and the instrument response. For most low-emitting sources, the alternate 10 ppm specification is reasonable and provides relief from the 5 percent of span requirement, which is often too stringent at low span values. However, for very low span values, the 10 ppm alternate specification needs to be tightened. This is especially important because many new gas turbines are being built and these units have very low NO_X emissions, often in the 0-10 ppm range.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed to modify the alternate calibration error specification in section 2.1.4(a) of appendix B for daily operation of SO₂ and NO_X monitors. The 10 ppm alternate specification would be retained for span values between 50 and 200 ppm. However, for span values less than or equal to 50 ppm, the alternate specification would be lowered to 5 ppm. EPA believes that a daily calibration error limit of 5 ppm is both reasonable and achievable in view of the measurement capability of today's gas analyzers. Also, 5 ppm is the alternate calibration error performance specification in section 3.1(b) of appendix A for initial certification of SO₂ and NO_X monitors.

c. What Changes Is EPA Finalizing?

EPA received only one comment on the proposed modification of the alternate calibration error specification. The comment was supportive (Clean Energy Group). Therefore, today's rule finalizes the proposed change to section 2.1.4(a) of appendix B lowering the daily calibration error specification to 5 ppm for SO₂ and NO_X monitors with span values of 50 ppm or less.

4. What Changes to the Stack Flow-to-Load Ratio Test Are Finalized?

Background

a. What Is Currently Required?

In the May 26, 1999 rule revisions, EPA added a new quarterly QA test for flow monitors to part 75: the flow-to-load ratio test. Since promulgation, EPA has received many questions about the test methodology relating both to the procedural aspects of how the data analysis is done and to the consequences when the test is failed. As a result, EPA believes it is necessary to clarify the test procedures and to re-evaluate the issue of data validation when the test is failed.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed revising the flow-to-load test methodology by allowing the data exclusions listed in section 2.2.5(c) of appendix B to be taken before analyzing the quarterly flow-to-load data. The current rule appears to require an initial data analysis with no exclusions and to allow owners and operators to claim the data exclusions only when the first analysis results in a failed test. Proposed section 2.2.5(c) also would clarify the issue of co-firing as it pertains to data exclusions. Units that co-fire different fuels as part of normal operation could claim flow-to-load test data exclusions for hours in which fuels were not co-fired, if the reference flow relative accuracy test audit (RATA) at normal load was done while co-firing. Conversely, if the reference flow RATA was done while firing a single fuel, flow-to-load test data exclusions could be claimed for hours in which fuels were co-fired. The proposed rule would also add a statement to section 6.5(a) of appendix A requiring that units which co-fire fuels as the predominant mode of operation perform RATAs while co-firing.

The proposal would change the method of data validation following a flow-to-load ratio test failure. Section 2.2.5(c)(8) of appendix B would allow the flow rate data to be declared conditionally valid, rather than invalid, when a flow-to-load test is failed, pending the results of a follow-up investigation and/or a RATA. This would allow data validation in case a false positive is obtained with the flow-to-load test. If the investigation fails to reveal a problem and a confirming RATA is passed hands-off, no data loss would be incurred. The timeline for investigating a flow-to-load test failure would also be changed from within 2 weeks to within 14 unit operating days.

The proposal would also clarify the instructions for multiple stack configurations and allow the data to be analyzed in one of two ways: (1) using combined flow and average unit load; or (2) using the flow in each stack and the corresponding unit load. Finally, section 7.8 in appendix A of part 75 would be revised to exempt non-load-based units (i.e., units that do not produce electrical output or steam load) from the flow-to-load ratio test.

c. What Changes Is EPA Finalizing?

EPA received supportive comments from one commenter on the proposed revisions to the flow-to-load ratio test methodology (UARG). No adverse comments were received. Therefore, today's rule finalizes the changes for the reasons stated in the proposal.

5. What Special QA Provisions Are Finalized for Units That Do Not Produce Electrical Output or Steam Load?

Background

a. What Is Currently Required?

Units subject to the monitoring and reporting requirements of part 75 must account for their emissions on a continuous basis. Most units use CEMS for this purpose. Part 75 requires periodic RATAs of all CEMS to demonstrate that the data recorded by the monitoring systems accurately represent the SO₂, NO_X, and CO₂ emissions from the affected unit. RATAs of gas and flow monitors are required for initial certification and either semiannually or annually thereafter.

Section 6.5.1 of appendix A to part 75 requires that RATAs of gas monitors be done at a single “normal” load level. Section 6.5.2 of appendix A and section 2.3.1.3 of appendix B specify the load levels for flow RATAs. In general, flow monitor RATAs are performed at multiple load levels (either two or three) with a few exceptions (e.g., for flow monitors installed on peaking units, only single-load RATAs are required). For multiple-load flow RATAs, at least one of the tested load levels must be the “normal” load level.

The method of establishing the normal load level is found in section 6.5.2.1 of appendix A. First, the owner or operator must determine the “range of operation” for the unit or stack. The range of operation extends from the minimum safe, stable load to the maximum sustainable load. Next, the range of operation is divided into three load levels. The first 30 percent of the range of operation is considered to be the “low” load level, the next 30 percent of the range is the “mid” load level, and the remaining 40 percent of Start Printed Page 40410the range is the “high” load level. The “normal” load level is determined by performing an analysis of at least four quarters of representative historical load data. From these data a distribution graph, such as a histogram, is constructed showing the percentage of the time that each load level has been used historically. The most frequently used load level (low, mid, or high) is automatically designated as the normal load level. The owner or operator may opt to designate the next most frequently used load level as a second normal load. Thus, the appropriate load levels for the required RATAs of the gas and flow monitors are established.

Under the NO_X SIP Call, some sources that do not produce electrical output or steam load, such as cement kilns or refinery process heaters, become subject to the monitoring and reporting requirements of part 75. Consequently, these sources will be required to perform periodic RATAs of their gas and flow monitors. Because these sources do not produce electrical or steam load, the concept of performing “normal load” RATAs cannot be applied to them. Therefore, an alternative RATA approach is needed for these non-load-based units.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed to revise section 6.5.2.1 of appendix A to part 75 by adding a method of establishing the proper operating levels at which to perform RATAs for units that do not produce electrical output or steam load (e.g., cement kilns and process heaters).

The proposed RATA approach for units that do not produce electrical or steam load would be based on an “operating level” concept, rather than a “load level” concept. The method of determining the normal operating level for a non-load-based unit would be much the same as the previously described method for determining the normal load level for a load-based unit. The owner or operator would determine the range of operation, divide it into three operating levels, and perform a data analysis to establish the “normal” (i.e., most frequently used) operating level. The only significant difference between the load-based and non-load-based methodologies is that instead of defining the range of operation in units of electrical or steam load (i.e., in megawatts or klb/hr of steam), the range of operation of the non-load-based unit would be defined in units of stack gas velocity in ft/sec. The range of operation would extend from the minimum expected velocity to the maximum potential velocity. These minimum and maximum gas velocities could either be determined from reference method test data or by using Equation A-3a or A-3b (as applicable) in section 2.1.4.1 of appendix A to part 75.

Once the boundaries of the range of operation are established and the normal operating load level has been identified, the owner or operator of a non-load-based unit would perform the required gas and flow RATAs in essentially the same manner as for a load-based unit. The only difference is that in many sections of part 75 the term “operating level” would replace the term “load” or “load level.” The proposed rule would modify the text in several sections of part 75 (e.g., by adding a parenthetical expression such as “(or normal operating level)” after the term “normal load”) to indicate that the provisions apply to both load-based and non-load-based units.

c. What Changes Is EPA Finalizing?

EPA received adverse comments on the proposed approach to determining the range of operation, normal operating level, and flow RATA requirements for non-load-based units, i.e., units that do not produce electrical output or steam load. After careful consideration of these comments, EPA has modified the proposed approach. The requirement to define the range of operation and the low, mid, and high operating levels in terms of stack gas velocity (ft/sec) is being finalized in this action, with only one minor change: the owner or operator may use 0.0 ft/sec as the “minimum potential velocity.” However, EPA is not adopting the proposed requirement to perform a historical analysis of flow rate data to establish the “normal” operating level. Instead, today's final rule specifies that the normal operating level for a non-load-based unit is determined using sound engineering judgment and operating experience with the unit and process, and supported with documentation in the monitoring plan. In addition, new section 6.5.2(e) of today's rule allows the owner or operator of a non-load-based unit to obtain relief from three-load flow RATA testing, if an acceptable technical justification is provided in the monitoring plan. If the owner or operator can satisfactorily demonstrate that the process operates only at one level, then only single-level flow RATAs would be required for certification and on-going quality assurance. If the process is demonstrated to operate at two distinct levels, then two-level flow RATAs would be required.

Discussion

EPA received comments from only one commenter regarding the proposed method of determining range of operation, normal operating level, and the appropriate operating levels for flow RATAs (APCA). The commenter stated two objections to the proposed rule provisions: (1) that the “maximum potential velocity” approach is not applicable to cement kilns; and (2) that since cement kilns operate at one level, only single-level flow RATAs should be required.

EPA does not agree with the commenter's claim that the concept of maximum potential velocity cannot be applied to a cement kiln. The Agency notes that the commenter did not explain why the proposed methodology will not work for cement kilns. EPA believes that for any non-load-based unit, an estimate of the highest stack gas velocity during normal operation should be easily obtainable, using EPA Method 2 (see 40 CFR 60, Appendix A). However, EPA has reconsidered the proposed approach to determining the normal operating level and establishing the RATA levels for flow monitors installed on such units. For industrial processes, such as cement manufacturing, which often have only one distinct operating level, it may not be appropriate to require a historical data analysis to establish the normal operating level, or to require three-level flow RATAs to be performed.

In view of these considerations, today's rule finalizes the requirement for non-load-based units to define the range of operation in terms of stack gas velocity as proposed. However, the velocity information is only used to define the operating range and the low, mid, and high operating levels. EPA is not adopting the proposed requirement for non-load-based units to determine the normal operating level by analyzing historical flow rate data. Instead, today's rule requires that the normal operating level be established using sound engineering judgment and process operating experience. Regarding the appropriate number of levels for flow RATAs, today's rule requires non-load-based units to perform flow RATA testing at the same number of load levels as are specified for load-based units in section 2.3.1.3(c) of appendix B (i.e., three levels for certification, two levels for routine quality-assurance) unless the owner or operator submits a technical justification to the permitting authority with the hardcopy of the initial monitoring plan for the unit, demonstrating that the unit operates at only one level. Today's rule adds this Start Printed Page 40411option in a new paragraph, (e), to section 6.5.2 of appendix A. The technical justification must include appropriate documentation and data to demonstrate that the process operates at only one level. If the justification is acceptable to the permitting authority, then only single-level flow RATAs would be required for initial certification, recertification, and on-going quality assurance. For non-load-based processes that operate at only two distinct levels, section 6.5.2(e) allows a similar justification to be submitted as an option to the three-level flow RATA testing.

D. Appendix D

1. What Changes to the Definitions of “Pipeline Natural Gas” and “Natural Gas” Are Finalized?

Background

a. What Is Currently Required?

The definitions of “pipeline natural gas” and “natural gas” in § 72.2 state that a gaseous fuel must meet a two-fold requirement to qualify as one of these fuels: the fuel must meet a hydrogen sulfide (H₂ S) content limit (0.3 gr/100 scf for pipeline natural gas and 1.0 gr/100 scf for natural gas) and the H₂ S must constitute at least 50 percent of the fuel's total sulfur content. Appendix D of part 75 does not explain how to comply with the second of these two requirements (i.e., the H₂ S as a percentage of total sulfur). Further, industry members have expressed concern that this requirement cannot be implemented in a fair and consistent manner. For example, a very clean fuel with 0.1 gr/100 scf of H₂ S and 0.3 gr/100 scf of total sulfur would not qualify as pipeline natural gas, because H₂ S is less than 50 percent of the total sulfur content, but a fuel with three times more H₂ S and twice as much total sulfur (0.3 gr/100 scf of H₂ S and over 0.6 gr/100 scf of total sulfur) would qualify as pipeline natural gas under the current rule.

In response to the industry's concerns over the definitions of pipeline natural gas and natural gas, EPA issued interim guidance on June 12, 2000, discussing how sources could demonstrate compliance with the existing definitions (see Docket A-2000-33, Item IV-A-5). As explained in the guidance, through its authority under § 75.66, EPA would allow owners or operators to comply by meeting a total sulfur limit (0.6 gr/100 scf for pipeline natural gas or 2.0 gr/100 scf for natural gas), in lieu of documenting that H₂ S constitutes at least 50 percent of the total sulfur content.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed revising the definitions of “pipeline natural gas” and “natural gas” in § 72.2. All references to H₂ S content would be removed and these fuels would be defined in terms of total sulfur content. The proposed total sulfur content values would be 0.5 gr/100 scf for pipeline natural gas and 20.0 gr/100 scf for natural gas. The value of 20.0 gr/100 scf is the maximum total sulfur content allowed under most contracts for transmitting pipeline natural gas and allowed under most tariffs established with the Federal Energy Regulatory Commission.

For fuels that qualify as pipeline natural gas, a default SO₂ emission rate of 0.0006 lb/mmBtu would be used to quantify SO₂ emissions, and for fuels that qualify as natural gas, a default SO₂ emission rate would be calculated based on Equation D-1h in appendix D. Equation D-1h would be revised and based upon the total sulfur content of the fuel, rather than the H₂ S content.

c. What Changes Is EPA Finalizing?

EPA received no adverse comments on the proposed revisions to the definitions of pipeline natural gas and natural gas. Therefore, today's rule finalizes the revised definitions as proposed.

Discussion

EPA received comments from four commenters on the proposed revisions to the definitions of pipeline natural gas and natural gas (Class of ‘85, XCEL Energy, Clean Energy Group, UARG). All four commenters favored the proposed changes. One commenter noted that eliminating the hydrogen sulfide content limit would make the use of appendix D more attractive and would reduce the risk of unintentional violations of the monitoring requirements (Class of ‘85). In view of these supportive comments, EPA finalizes the proposed definitions of pipeline natural gas and natural gas without modification.

2. How Does Today's Rule Change the Method by Which a Gaseous Fuel Qualifies As “Pipeline Natural Gas” or “Natural Gas”?

Background

a. What Is Currently Required?

The part 75 requirements for demonstrating that a particular gaseous fuel qualifies as pipeline natural gas or natural gas are found in sections 2.3.1.4 and 2.3.2.4 of appendix D. Compliance with the hydrogen sulfide content limit must be documented through one of five sources of information: (1) a fuel purchase or pipeline transportation contract; (2) vendor certification based on fuel sampling; (3) one year of monthly sampling; (4) one year of sampling each shipment or lot of fuel (for fuels delivered in shipments or lots); or (5) a demonstration consisting of 720 hours of sampling.

b. What Changes Were Proposed?

As discussed in the previous question, on June 13, 2001, EPA proposed revising the definitions of pipeline natural gas and natural gas by removing the specified limits on the hydrogen sulfide content of the fuel and replacing them with limits on total sulfur content.

EPA also proposed revisions to sections 2.3.1.4 and 2.3.2.4 of appendix D, which would change the way of documenting that a fuel qualifies as pipeline natural gas or natural gas. An initial compliance demonstration and periodic sampling of the total sulfur content of the fuel would be required. Initial compliance with the total sulfur limit would be documented either: (1) using a fuel purchase or pipeline transportation contract; or (2) using the results of all available fuel sampling results for the previous 12 months; or (3) using the results of a 720-hour demonstration; or (4) by obtaining and analyzing a sample of the fuel in the absence of a contract or historical fuel sampling data. Once a fuel initially qualified as pipeline natural gas or natural gas, periodic, on-going sampling for total sulfur content would be required. The proposed sampling frequency was semiannual and whenever “it is reasonable to believe that the fuel composition has changed significantly.”

c. What Changes Is EPA Finalizing?

EPA received numerous comments on both the proposed method by which a fuel qualifies as pipeline natural gas or natural gas and the proposed semiannual total sulfur sampling requirement. In view of the comments, EPA has modified these rule provisions. In today's rule, revised sections 2.3.1.4 and 2.3.2.4 of appendix D specify three methods by which a fuel may initially qualify as pipeline natural gas or natural gas: (1) by a fuel contract or tariff sheet with a maximum total sulfur specification that meets the definition of pipeline natural gas or natural gas; (2) based on historical fuel sampling and analysis data from the previous twelve months; or (3) in the absence of a satisfactory contract specification or historical sampling data, by obtaining a sample (or samples) of the fuel. For a Start Printed Page 40412fuel that qualifies using a contract or tariff sheet specification, no additional on-going sampling of the total sulfur content is required, provided that the contract or tariff sheet is current, valid, and representative of the fuel combusted in the unit. For a fuel that initially qualifies as pipeline natural gas or natural gas based on fuel sampling and analysis, total sulfur sampling is required annually and whenever the fuel supply changes. The annual total sulfur sampling requirement has an effective date of January 1, 2003.

Discussion

One commenter supported the proposed provision to allow a fuel to initially qualify as pipeline natural gas or natural gas based on a single fuel sample, and also supported the proposed semiannual total sulfur sampling requirement (Reliant). Another commenter expressed concern that for sources using the historical fuel sampling option, the language requiring that “all available fuel samples” from the past twelve months be used could require an exhaustive search of all possible sources of sample results and might lead to allegations that a source had excluded relevant samples (UARG). The commenter suggested that EPA should consider using alternate language, such as “representative fuel samples from the past twelve months”, and that the Agency should also allow averaging of sample results. The commenter also stated that if a source has followed EPA's June 12, 2000 guidance and has obtained the total sulfur sample(s) to document that the fuel being combusted qualifies as pipeline natural gas or natural gas, re-qualification is unnecessary and the source should only be subject to the on-going semiannual fuel sampling requirements.

Three commenters objected to the proposed requirement to sample the total sulfur content of pipeline natural gas and natural gas semiannually (UARG, Class of '85, XCEL Energy). One of these commenters suggested that annual, rather than semiannual, sampling would be more appropriate, and that for sources relying on a contract specification, the on-going sampling should not be required at all (UARG). The other two commenters recommended deleting the semiannual sampling requirement and requiring re-sampling only if the fuel supply changes (Class of ‘85, XCEL Energy). Several commenters stated that EPA should allow immediate re-sampling to be performed if the results of a periodic sulfur sample analysis are believed to be anomalous or suspect (Class of ‘85, XCEL Energy, Machaver).

After considering these comments, EPA has revised both the requirements for a fuel to initially qualify as pipeline natural gas or natural gas, and the on-going total sulfur sampling requirements. In today's rule, revised sections 2.3.1.4 and 2.3.2.4 of appendix D provide three methods by which a fuel may qualify: (1) By a total sulfur specification in a fuel contract or tariff sheet; (2) based on historical fuel sampling data from the previous twelve months; or (3) in the absence of a contract specification or historical sampling data, a sample of the fuel's total sulfur content must be obtained and analyzed. Note that EPA has removed the fourth option of performing the 720-hour demonstration described in section 2.3.6 of appendix D to qualify, believing it to be unnecessary in light of the third option allowing use of a sample. The 720-hour demonstration has been reserved for characterizing the sulfur content of gaseous fuels other than pipeline natural gas and natural gas.

Today's rule states that when the owner or operator relies on the specifications in a fuel contract or tariff sheet for a fuel to initially qualify as pipeline natural gas or natural gas, no initial or on-going sampling of the total sulfur content is required, provided that the contract or tariff sheet is current, valid, and representative of the fuel combusted in the unit. For a fuel that initially qualifies as pipeline natural gas or natural gas based on fuel sampling and analysis, total sulfur sampling is required annually and whenever the fuel supply changes. The annual total sulfur sampling requirement has an effective date of January 1, 2003.

EPA believes that most sources are likely to use fuel sampling to demonstrate that the fuel qualifies as pipeline natural gas or natural gas, rather than relying on contract specifications. This is because the maximum total sulfur content specified in most contracts for transmitting pipeline natural gas, and under most tariffs established with the Federal Energy Regulatory Commission, is 20.0 gr per 100 scf, whereas the actual total sulfur content of natural gas is generally 10 to 100 times lower. In the absence of actual fuel sampling data, Table D-5 in appendix D requires the maximum total sulfur content specified in the contract or tariff to be used to calculate the default SO₂ emission rate. Therefore, EPA believes that most sources combusting natural gas will elect to perform fuel sampling, rather than using the specifications in a fuel contract or tariff sheet, in order to avoid significantly overestimating SO₂ emissions.

The final rule further states that when historical fuel sampling results are used to qualify, only those fuel samples taken by or provided to the owner or operator in the past twelve months need be considered. If multiple fuel samples are used to qualify, each sample must meet the applicable total sulfur limit. Also, if a single fuel supply serves many affected units, it is not necessary to obtain a separate sample for each unit, provided that no other gaseous fuel is mixed with the fuel in transporting it from the sampling location to the affected units. For fuels that qualify as natural gas, if multiple samples are taken, the results may be averaged before using Equation D-1h to calculate the default emission rate.

If the results of any required fuel sampling and analysis fail to demonstrate that a fuel qualifies as pipeline natural gas or natural gas, but the results are suspect or believed to be anomalous, the owner or operator may document the reasons for believing this in the monitoring plan and additional sampling may be initiated immediately. In such cases, at least three additional samples are required and each sample analysis must meet the applicable total sulfur limit for pipeline natural gas or natural gas.

Finally, EPA notes that affected facilities currently relying on total sulfur samples obtained in accordance with the June 12, 2000 guidance to meet the definition of pipeline natural gas or natural gas are not required to perform any additional sampling to re-qualify, provided that the fuel supply source has not changed since the samples were taken. These facilities are subject only to the on-going, annual total sulfur sampling requirement which takes effect in 2003.

3. How Does Today's Rule Change the Fuel Sampling and Data Reporting Requirements for Gaseous Fuels Other Than Pipeline Natural Gas and Natural Gas?

Background

a. What Is Currently Required?

Appendix D of part 75 may be used for “other” gaseous fuels besides pipeline natural gas and natural gas. For these other gaseous fuels, appendix D does not allow SO₂ emissions to be quantified using a default SO₂ emission rate. Rather, hourly sampling of the total sulfur content of the fuel is required using manual sampling methods or an on-line gas chromatograph, although section 2.3.6 in appendix D provides a Start Printed Page 40413720-hour demonstration procedure whereby some relief from hourly sulfur sampling can be obtained. The demonstration requires 720 hours of sampling to characterize the fuel's total sulfur content and variability. If the results of the demonstration show that the fuel has a low sulfur variability, then the owner or operator may sample the fuel's sulfur content daily instead of hourly.

b. What Changes Were Proposed?

In the June 13, 2001 proposed rule, EPA proposed clarifying that the 720-hour demonstration procedure in section 2.3.6 of appendix D is optional and that it may be used to show that the sulfur content of a particular gaseous fuel is within the limits for pipeline natural gas or natural gas. However, the Agency received a significant comment on section 2.3.6, requesting that EPA allow the demonstration procedure to be used to determine default SO₂ emission factors for gaseous fuels such as refinery gas and producer gas, so that units burning these fuels would be able to obtain relief from the hourly or daily sulfur sampling requirements.

c. What Changes Is EPA Finalizing?

EPA believes that the commenter's suggestion has merit, and has incorporated it into the final rule. Today's rule conditionally allows the owner or operator of an Acid Rain Program unit that combusts a gaseous fuel other than pipeline natural gas or natural gas to determine a fuel-specific default SO₂ emission rate using the results of the 720-hour demonstration in section 2.3.6 of appendix D. The default emission rate could be used in conjunction with the hourly heat input rate to quantify hourly SO₂ emissions in the same manner as is done for pipeline natural gas or natural gas. The only exception to this would be if the results of the 720-hour demonstration indicate that the gaseous fuel has both a high sulfur content and high sulfur variability (i.e., greater than 5.0 grains per 100 scf, standard deviation). In that case, the more rigorous hourly sulfur sampling would be required.

Discussion

EPA received one comment on the proposed changes to section 2.3.6 of appendix D (UARG). The commenter requested that EPA add language to section 2.3.6 stating that for “other” low-sulfur gaseous fuels (such as producer gas, refinery gas, and landfill gas), the results of the 720-hour demonstration in section 2.3.6 may be used to determine a fuel-specific default SO₂ emission rate such as is determined for natural gas by using Equation D-1h. The principal reason for this recommended rule revision would be to provide regulatory relief from the current appendix D requirement to perform either hourly or daily sulfur sampling for these “other” gaseous fuels.

EPA finds the commenter's request to be reasonable and believes that the 720-hour demonstration is sufficiently representative to support the desired regulatory relief with little risk of underestimating SO₂ emissions. Therefore, today's rule adds the requested language to section 2.3.6 of appendix D. In the final rule, revised section 2.3.6 conditionally allows “other” gaseous fuels (e.g., refinery gas or producer gas) to use default SO₂ emission rates to quantify SO₂ mass emissions rather than performing daily or hourly sampling for total sulfur. If the 720-hour demonstration described in section 2.3.6 is performed for the gaseous fuel, the results of that demonstration may be used to determine a default SO₂ emission rate, provided that the fuel is not found to have both a high sulfur content (more than 20 grains per 100 scf) and a high sulfur variability (more than 5 grains per 100 scf, standard deviation). If the fuel qualifies to use a default SO₂ emission rate, then Equation D-1h in appendix D may be used to calculate the emission rate in the same manner that a default emission rate would be calculated for natural gas. The exact value of the fuel's total sulfur content used to calculate the default emission rate depends on whether the fuel is found to have a low or high sulfur variability (i.e., variability with a standard deviation of greater than 5.0 grains per 100 scf) during the 720-hour demonstration. If the sulfur variability is low, the 90th percentile value from the demonstration is used in the calculation. If the sulfur variability is high, the maximum value from the demonstration is used to calculate the default SO₂ emission rate.

Today's rule requires periodic on-going total sulfur sampling for other gaseous fuels that use the demonstration in section 2.3.6 to determine a default SO2 emission rate. The required sampling frequency is annual. For reporting purposes, the default emission rate derived from the 720-hour demonstration is used unless a higher sulfur content is obtained in an annual sample, in which case the higher sampled value would be reported.

The Agency notes that the 720-hour demonstration in section 2.3.6 may also be used to derive fuel-specific default SO₂ emission rates for Acid Rain Program units seeking to qualify as low mass emissions units under § 75.19 (see Docket A-2000-33, Item V-C-1 for further discussion).

4. What Changes to the Appendix D Missing Data Procedures Are Finalized?

Background

a. What Is Currently Required?

Appendix D requires the owner or operator to report substitute data for any hour in which quality-assured fuel flow rate data is not obtained and whenever a sample of the fuel sulfur content, gross calorific value, or density has not been obtained and analyzed as required. The load-based missing data procedures for fuel flow rate are found in section 2.4 of appendix D. The appropriate substitute data values for fuel sulfur content, gross calorific value, and density are given in Table D-6.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed revising the appendix D missing data procedures. The load-based fuel flow rate missing data procedures in section 2.4.2 would be clarified but not substantively changed. New fuel flow rate missing data procedures would be added for units that do not produce electrical output or steam load. The missing data requirements for the sulfur content of gaseous fuels in Table D-6 would also be changed, as follows: (1) Substitute data values for pipeline natural gas and natural gas would be expressed in terms of the total sulfur content of the gas instead of the hydrogen sulfide content; (2) for pipeline natural gas, the substitute data value would be 0.002 lb/mmBtu; (3) for natural gas, the substitute data value would be an emission rate (in lb/mmBtu) calculated from Equation D-1h using the lesser of the maximum total sulfur content specified in the fuel contract or 1.5 times the highest total sulfur value from the previous year's samples; (4) for gaseous fuels sampled daily, the substitute data value would be 1.5 times the highest total sulfur content obtained in the previous 30 daily samples; and (5) for gaseous fuels sampled hourly, the substitute data value would be the highest total sulfur content from the previous 720 hourly samples.

c. What Changes Is EPA Finalizing?

Today's rule finalizes the revisions to the appendix D missing data procedures. The final rule provisions have been modified somewhat from the proposal to be consistent with changes that have been made to other sections of appendix D based on comments received. The fuel flow rate missing data Start Printed Page 40414procedures for non-load-based units have also been simplified to make them easier to implement. EPA has provided additional time in the rule language from the effective date of today's rule for owners and operators to implement these new missing data routines (see Section V., Rule Implementation, of this preamble).

Discussion

EPA received comments on the proposed revisions to the appendix D missing data routines from only one commenter (UARG). The commenter was generally supportive of the proposed changes to the gas sulfur content substitute data values in Table D-6 and to the missing data routines for fuel flow rate. However, the commenter expressed concern that the changes would require significant reprogramming of the data acquisition and handling system (DAHS) software and requested that EPA allow sufficient time to implement the new missing data routines.

In view of the supportive comments received, the proposed revisions are finalized with only minor changes. These changes to the proposal are deemed necessary for purposes of consistency. Other sections of appendix D have been modified based on comments received, and some of the changes to those sections impact the missing data routines. The most significant change was made to the substitute data value for natural gas combustion. The proposed rule would have required the substitute data value to be the lesser of: (a) the maximum sulfur content specified in the fuel contract; or (b) 1.5 times the highest sulfur content from the previous year's samples. The final rule requires the substitute data value to be 1.5 times the default value of sulfur content which is in effect at the time of the missing data period. According to revised Table D-5, the default value “in effect” will be either the maximum sulfur content specified in the fuel contract or the sulfur content from the most recent sample. Since the required sampling frequency for natural gas is annual, only one sample is required each year. Thus, there is little difference in meaning between the proposed rule language, i.e., “highest sulfur content from the previous year's samples” and the final rule language, i.e., “sulfur content from the most recent sample.”

Today's rule finalizes the proposed fuel flow rate missing data routines both for load-based units and for units that do not produce electrical or steam load. The load-based provisions are finalized as proposed; however, for ease of implementation the proposed non-load-based routines have been simplified. In the final rule, the substitute data value for non-load-based units is simply the arithmetic average of the quality-assured flow rates in a 720-hour lookback period. EPA is not finalizing the proposed option that would have allowed the data to be sorted into operating bins, nor the associated text in section 4 of appendix C. The Agency believes that separating fuel flow data into operating bins unnecessarily complicates the missing data routines. EPA expects that not finalizing this proposed missing data option will have little or no impact since, at present, there are no non-load-based oil and gas-fired units required to use part 75 monitoring. However, it is possible that such units may be included in a future program such as the Federal NO_X Budget Trading Program. Should the owners or operators of such units elect to use appendix D and decide that operational bins are needed for fuel flow rate missing data purposes, EPA will consider allowing that missing data approach through the petition process under § 75.66.

E. Other Highlights and Changes

1. What Changes to the Compliance Dates and Timelines for Monitor Certification in § 75.4 Are Finalized in Today's Rule?

Background

a. What Is Currently Required?

Part 75 specifies different monitor certification timelines in § 75.4 for new units, new stacks, and deferred units. New units must certify their monitors within 90 calendar days after the unit commences commercial operation. Similarly, for newly affected units, owners or operators have 90 calendar days from the date on which they become Acid Rain-affected units to certify monitors. Also, when a new stack or flue gas desulfurization system (FGD) is constructed, the owner or operator has 90 calendar days from the date on which emissions first exit to the atmosphere through the new stack or FGD to install and certify continuous monitoring systems. However, for deferred units (affected units that were in cold-storage on their compliance deadline), owners or operators have either 45 operating days or 180 calendar days (whichever occurs first) to certify monitors after recommencing operation. The 90 calendar day timeline has proven to be problematic, particularly for new units that experience mechanical problems when they first begin operating. The deferred unit timeline provides greater flexibility.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed to harmonize all of the timelines for deferred units, new units, new stacks, and newly affected units. In all cases, the certification deadline would be the earlier of 90 unit operating days or 180 calendar days after the unit commences commercial operation or recommences operation. Paragraphs (b), (c), (d), and (e) of § 75.4 would be revised to incorporate this change. Corresponding changes would be made to 40 CFR 97.70, the monitoring and reporting sections of the January 18, 2000, section 126 final rule in order to make the certification timelines in parts 75 and 97 consistent.

c. What Changes Is EPA Finalizing?

Today's rule finalizes the proposed changes to the certification timelines in parts 75 with one exception. For newly-affected Acid Rain Program units under § 75.4(c), the certification timeline would begin with the first hour of operation of the unit after the date on which it becomes an Acid Rain-affected unit, rather than the first hour after the unit becomes Acid Rain-affected.

Discussion

EPA received numerous comments on the proposed changes to the certification timelines in § 75.4 (Reliant, Clean Energy Group, Dominion, UARG, Class of '85, Dynegy). All of the commenters were supportive of the proposed revisions. However, one commenter requested that § 75.4(c) be revised further (Dominion). The commenter recommended that the timeline for newly-affected Acid Rain Program units be modified so that the “clock” starts with the first hour of commercial operation of the unit after it becomes affected, rather than starting from the date and hour on which the unit becomes affected. The commenter indicated that this would provide the utility with the option of not operating a newly-acquired unit, thereby allowing time to acquire the necessary CEMS equipment. EPA agrees that this added flexibility in the certification timeline for newly-affected units is desirable and incorporates the commenter's suggestion into the final rule.Start Printed Page 40415

2. Does Today's Rule Change the Way in Which Unit and Stack Operating Hours Are Counted?

Background

a. What Is Currently Required?

Part 75 allows quality-assurance (QA) test exemptions and deadline extensions for continuous emission monitors based on the amount of unit operation. Grace periods are also allowed to complete missed QA tests. To qualify for QA test extensions and exemptions, an owner or operator must determine whether there are at least 168 unit or stack operating hours in the quarter (so that the quarter meets the definition of a “QA operating quarter”). The length of grace periods is also determined on a unit or stack operating hour basis. The rule defines “unit operating hour” and “stack operating hour” in such a way that partial operating hours are counted as full hours. This is not the way that source operators normally count operating hours. They normally count cumulative operating time so that 30 minutes of operation equals 0.5 operating hours, not 1.0 hours.

b. What Changes Were Proposed?

On June 13, 2001, EPA proposed to add two new definitions, “cumulative stack operating hours” and “cumulative unit operating hours”, to § 72.2. The definitions of “QA operating quarter” and “fuel flowmeter QA operating quarter” would be revised to put them in terms of cumulative unit or stack operating hours. Finally, all references to the length of grace periods would be changed to be in terms of cumulative unit operating hours or cumulative stack operating hours. These proposed changes would effectively remove the requirement to count partial operating hours as full hours when determining the source operating time and the length of the grace period.

c. What Changes Is EPA Finalizing?

EPA is finalizing neither of the proposed definitions of “cumulative stack operating hours” and “cumulative unit operating hours” nor the proposed changes to the way in which unit and stack operating hours are counted.

Discussion

EPA received input from four commenters on the proposed changes to the method of counting unit and stack operating hours (Class of '85, Dynegy, UARG, XCEL Energy). None of the commenters supported the changes without reservation. All of them indicated that EPA should make the changes optional, not mandatory. All of the commenters stated that the changes would require significant, potentially costly changes to the DAHS software. The commenters also noted that for many utilities, the increase in rule flexibility associated with the changes would not be great enough to justify the expense.

In the absence of fully supportive comments, EPA has decided not to adopt the proposed revisions. The Agency considered incorporating the commenters' suggestion to allow two options for calculating source operating time, i.e., one based on unit operating hours and one based on “cumulative” unit operating hours. However, EPA rejected this approach because it would seriously complicate program oversight. It also would require significant re-programming of EPA's data checking software and would require structural changes to several EDR record types. In this case, the Agency concludes that the relatively small benefit of allowing a second method of calculating source operating time does not justify the associated cost.

3. Does Today's Rule Change the Notification Requirements for Monitor Certifications and Recertifications?

Backround

For the initial certification of continuous monitoring systems, part 75 requires the owner or operator to provide a minimum of 45 days advance notice before the first date of scheduled testing. For recertifications, at least 45 days of advance notice is required when all recertification tests are required (full recertification), but only 7 days notice is required when all of the tests are not required (partial recertification).

On June 13, 2001, EPA proposed revising §§ 75.20 and 75.61, to make a single notification requirement of 21 days for initial certifications and for all recertifications, regardless of whether all of the tests are required. EPA believed the existing 7-day notice for partial recertifications provided too little time for State and local agency personnel and EPA personnel to schedule site visits to observe the recertification testing. Conversely, the Agency believed that 45 days notice was too far in advance of the testing. Test observation is a critical component of agency oversight of the Acid Rain Program monitoring requirements, and the 21-day test notification requirement would ensure that the agencies can successfully fulfill this responsibility.

Based on comments received, EPA is finalizing the 21-day certification test notification requirement as proposed, but has modified the proposed recertification test notification provisions. Today's rule makes a clearer distinction between full and partial recertifications and the notification requirements for each type. The final rule reduces the notification requirement for full recertifications from 45 to 21 days as proposed, but retains the 7-day advance notice requirement for partial recertifications. An emergency provision for unplanned full recertifications has also been added to § 75.61(a)(1)(i).

Discussion

EPA received comments from five commenters on the proposed changes to the certification and recertification test notification requirements (Dominion, Dynegy, UARG, Class of '85, ESC). The commenters did not object to reducing the test notification time for initial certifications from 45 to 21 days. However, four of the commenters objected to the proposal to require 21 days advance notice for recertifications (Dominion, Dynegy, UARG, ESC), and the fifth commenter objected to the 7-day notification requirement when the scheduled RATA is performed on a different date (Class of '85). The commenters perceive the 21-day notification requirement for recertifications as being an increase from the 7-day requirement of the current rule. For reasons discussed in greater detail in the “Response to Comments” document supporting this rulemaking (see Docket No. A-2000-33, Item V-C-1), this perception is not entirely correct. The proposed 21-day notification requirement represents an increase in notification time only for partial recertifications (where a full battery of tests is not required). For full recertifications, where all of the tests are required, 21 days notice actually is a reduction from the 45-day notification requirement of the current rule.

The commenters' main objection to the 21-day notification requirement for recertifications centers around emergency (unplanned) events that require recertification. The commenters expressed concern that requiring such a long advance notice would require sources in emergency situations to postpone testing in order to give observers the opportunity to schedule site visits. The commenters stated that this could result in sources having to use the missing data routines for long periods of time which is inconsistent with the part 75 goal of keeping monitors operating and reducing missing data episodes.

After consideration of these comments, EPA is finalizing the 21-day test notification requirement for initial certifications and for full Start Printed Page 40416recertifications. The text of § 75.61(a)(1)(i) is revised to be consistent with § 75.20(b)(2) and to make it clear that the 21-day requirement applies to full recertifications as well as initial certifications. A typographical error in § 75.20(b) is also corrected. The proposed 21-day notification for partial recertifications is not adopted, and the 7-day requirement, with the associated emergency provision, is retained.

To address the commenters' concern about emergency recertifications, § 75.61(a)(1)(i) of today's rule provides an emergency provision for unplanned events beyond the source operator's control which require a full battery of recertification tests to be performed. The emergency provision is the same as the one in § 75.61(a)(1)(ii) for partial recertifications.

4. Does Today's Rule Affect the Way in Which Emissions Are Monitored and Reported for Units With Bypass Stacks?

Background

For an exhaust configuration consisting of a main stack and a bypass stack, if the use of the bypass stack is limited by regulation or permit to emergency malfunctions of the flue gas desulfurization system, § 75.16 allows the maximum potential SO₂ concentration to be reported during the malfunction in lieu of installing monitors on the bypass stack. For NO_X, however, the rule has no corresponding provision. Rather, it appears that monitoring of the bypass stack or monitoring of the duct(s) leading to the bypass stack are the only available options.

On June 13, 2001, EPA proposed clarified and expanded instructions for SO₂ and NO_X monitoring of multiple and bypass stack configurations in §§ 75.16(c) and 75.17(c), and in § 75.72(c) and (d). EPA proposed a new provision to §§ 75.17(c) and 75.72(c) for configurations consisting of a main stack and a bypass stack, allowing the maximum potential NO_X emission rate to be reported when the bypass stack is used.

EPA also proposed revisions to the language in § 75.16(c)(3) which restricts the reporting of the maximum potential SO₂ concentration (MPC) to emergency situations in which the flue gas desulfurization (FGD) system is bypassed. Proposed § 75.16(c)(3) would allow the MPC to be reported in lieu of monitoring at the bypass stack, provided that the use of the bypass stack is limited to unit startups, emergency situations, and routine maintenance of the FGD system and the main stack.

Today's rule finalizes the proposed bypass stack monitoring and reporting revisions with minor editorial changes.

Discussion

Two commenters supported the proposed revisions to the bypass stack monitoring provisions (UARG, Reliant). However, one of the commenters objected to the proposed language in §§ 75.16(c) and 75.17(c) addressing the reporting of parameters other than SO₂ or NO_X during bypass hours, stating that the proposed language “creates confusion and conflict” (UARG).

After consideration of these comments, EPA is finalizing the bypass stack monitoring provisions as proposed, except that the references in §§ 75.16(c) and 75.17(c) to the reporting of other parameters, such as CO₂, are not adopted because EPA believes that these requirements are adequately addressed in other sections of the rule and do not need to be re-stated here.

5. What Other Noteworthy Provisions Are Finalized in Today's Rule?

EPA notes that no negative comment was received on the following significant revisions to part 75 that are finalized for the reasons stated in the proposed rule:

• The proposal to remove the restriction in section 2.1.2 of appendix D prohibiting apportionment of measured hourly heat input at a common pipe to the individual units (for units using the provisions of subpart H of part 75 to monitor NO_X mass emissions) is finalized. Common pipe heat input apportionment is now allowed for subpart H units, provided that the units served by the pipe are all affected units with similar efficiencies (e.g., all boilers or all turbines).
• The proposed revisions to the appendix E missing data procedures are finalized.
• The proposed revisions to appendix E, section 2.2, requiring retesting once every 5 years (20 calendar quarters) and removing the requirement to retest every 3,000 operating hours are finalized.
• The proposal to expand the use of Equation G-4 in appendix G to oil-fired units is finalized.

F. Streamlining Changes

Background

A number of rule sections in part 75 have expired either on December 31, 1999, or on March 31, 2000. For some, but not all, of these expired rule provisions, part 75 contains new (replacement) provisions, having effective dates of January 1, 2000, or April 1, 2000, respectively. The expired provisions are a potential source of confusion to both the regulated community and to regulators in assessing compliance with part 75. For instance, the rule contains two sets of recordkeeping and reporting provisions, one of which expired on March 31, 2000, and the other which became effective on April 1, 2000. Removing the expired sections would greatly facilitate part 75 implementation and compliance.

On June 13, 2001, EPA proposed streamlining part 75 by eliminating outdated language in the rule and by removing a number of references throughout part 75 to sections of the rule that are no longer effective. This streamlining would occur in several places in the rule. The Agency proposed to remove from part 75 all of the rule sections that expired on April 1, 2000, and all textual references to those sections. This includes the recordkeeping and reporting sections, §§ 75.54, 75.55, and 75.56; the monitoring plan provisions in § 75.53(c) and (d); and the CO₂ missing data provisions in § 75.35(c).

EPA also proposed removing rule sections that only applied to Phase I Acid Rain Program units and are now inapplicable, and to remove all textual references to those sections. For instance, the 15 percent relative accuracy specification for flow monitors expired at the end of Phase I (on December 31, 1999) and was replaced on January 1, 2000, by the current 10 percent standard. The proposed rule would revise appendix A, section 3.3.4; appendix B, sections 2.3.1.2(b) and (c); and Figure 2 of appendix B to reflect this.

Today's rule finalizes the streamlining changes as proposed. EPA has prepared a technical support document (see Docket No. A-2000-33, Item IV-A-9) that identifies in tabular form all of the streamlining changes made to part 75.

Discussion

EPA received comments from only one commenter on the proposed streamlining changes to part 75 (UARG). The commenter agreed that the cited rule provisions are obsolete and did not object to their removal. Therefore, EPA finalizes the changes as proposed.

V. Rule Implementation

This final rule becomes effective July 12, 2002. However, EPA is aware that while some affected sources may choose to take advantage of options provided immediately, others will require more time for implementation. Therefore, EPA has specified in this final rule where additional time is permitted for Start Printed Page 40417full compliance with new mandatory requirements.

The rule provisions that provide alternative compliance dates are as follows: Appendix A paragraph 2.1.2.1(a); Appendix D Table D-6 under Gas Total Sulfur Content; and Appendix E paragraph 2.5.2.

EPA is aware that some non-load based units are required under their State's SIP to start monitoring NO_X mass emissions according to part 75 in the 2002 ozone season. EPA will continue to work with the affected sources and the State to resolve any conflicts imposed on the sources by the timing of today's rule.

Some aspects of the final rule that will require attention concern reporting requirements and mechanisms. While EPA is prepared to accept electronic data reports in the proscribed format, regulated sources will require time to review the final rule and make any adjustments or changes in software that may result. With this in mind, EPA is updating the EDR version 2.1 Instructions to accompany this final rule. EPA has identified in the rule language any deadlines for compliance that are different from the effective date of this rule, as applicable. If you have questions regarding the implementation of this final rule, consult the person listed in the preceding FOR FURTHER INFORMATION CONTACT section of this preamble.

VI. Regulatory Assessment Requirements

A. Executive Order 12866: Regulatory Planning and Review

Under Executive Order 12866 (58 FR 51735, October 4, 1993), the Agency must determine whether the regulatory action is “significant” and therefore subject to Office of Management and Budget (OMB) review and the requirements of the Executive Order. The Order defines “significant regulatory action” as one that is likely to result in a rule that may:

(1) Have an annual effect on the economy of $100 million or more or adversely affect in a material way the economy, a sector of the economy, productivity, competition, jobs, the environment, public health or safety, or State, local, or tribal governments or communities;

(2) Create a serious inconsistency or otherwise interfere with an action taken or planned by another agency;

(3) Materially alter the budgetary impact of entitlements, grants, user fees, or loan programs or the rights and obligations of recipients thereof; or

(4) Raise novel legal or policy issues arising out of legal mandates, the President's priorities, or the principles set forth in the Executive Order.

This final rule is not expected to have an annual effect on the economy of $100 million or more. It has been determined that this rule is not a “significant regulatory action” under the terms of Executive Order 12866 and it is therefore not subject to OMB review.

B. Unfunded Mandates Reform Act

Title II of the Unfunded Mandates Reform Act of 1995 (UMRA), Public Law 104-4, establishes requirements for Federal agencies to assess the effects of their regulatory actions on State, local, and tribal governments and the private sector. Under section 202 of the UMRA, EPA generally must prepare a written statement, including a cost-benefit analysis, for proposed and final rules with “Federal mandates” that may result in expenditures to State, local, and tribal governments, in the aggregate, or to the private sector, of $100 million or more in any one year. Before promulgating an EPA rule for which a written statement is needed, section 205 of the UMRA generally requires EPA to identify and consider a reasonable number of regulatory alternatives and adopt the least costly, most cost-effective, or least burdensome alternative that achieves the objectives of the rule. The provisions of section 205 do not apply when they are inconsistent with applicable law. Moreover, section 205 allows EPA to adopt an alternative other than the least costly, most cost-effective, or least burdensome alternative if the Administrator publishes with the final rule an explanation why that alternative was not adopted. Before EPA establishes any regulatory requirements that may significantly or uniquely affect small governments, including tribal governments, it must have developed under section 203 of the UMRA a small government agency plan. The plan must provide for notifying potentially affected small governments, enabling officials of affected small governments to have meaningful and timely input in the development of EPA regulatory proposals with significant Federal intergovernmental mandates, and informing, educating, and advising small governments on compliance with the regulatory requirements.

Today's rule is not expected to result in expenditures of $100 million or more for State, local, and tribal governments, in the aggregate, or the private sector in any one year and, as such, is not subject to sections 202 and 205 of the UMRA. As discussed in section III., above, EPA will continue to use its outreach efforts related to part 75 implementation, including guidance documents and a policy manual that is updated regularly, to inform, educate, and advise all potentially impacted governments about compliance with part 75.

C. Paperwork Reduction Act

The Office of Management and Budget (OMB) has approved the information collection requirements contained in this rule under the provisions of the Paperwork Reduction Act, 44 U.S.C. 3501 et. seq. and has assigned OMB control numbers 2060-0258 and 2060-0445.

The information collection requirements in 40 CFR parts 72 and 75 affect two EPA programs, the Acid Rain Program and the Federal NO_X Budget Trading Program. There are two program ICRs currently in place that account for the basic recordkeeping and reporting burdens associated with 40 CFR parts 72 and 75. First, the Acid Rain Program ICR (ICR 1633.12, OMB No. 2060-0258) addresses the costs for units affected by the Acid Rain Program. The NO_X SIP Call ICR (ICR 1857.02, OMB No. 2060-0445) addresses the costs, including NO_X mass monitoring costs, by both Acid Rain Program (ARP) units and non-ARP units in the NO_X Budget Trading Program.

Most of the changes associated with this rulemaking provide additional flexibilities to existing regulations in response to issues raised during the ongoing implementation of part 75. Thus, they do not significantly affect the burden estimates included in the two existing ICRs. Table 1, below, categorizes the changes finalized in parts 72 and 75, as recordkeeping and reporting burden/cost neutral or as burden/cost reducing; none of the changes is expected to significantly increase burdens or costs. (The remaining changes do not affect recordkeeping and reporting requirements.)

Further, the Agency expects the changes to have minimal impact on existing program ICRs because many of the changes merely serve to make additional flexibilities feasible. For example, many of the rule revisions to the LME section clarify how the rule applies to non-ARP SIP Call units that use part 75 for NO_X mass monitoring. The changes make use of the LME provisions feasible for non-ARP units so that the scope of applicability to non-ARP units is not expected to be significantly different from that for ARP units.

The SIP Call ICR assumed none of the non-ARP units would take advantage of the reduced burdens and costs associated with the LME provisions Start Printed Page 40418because those estimates only related to burden incurred through the year 2002. In future years, as LMEs avail themselves of the proposed provisions, it is estimated that there will be burden reductions. These reductions will be reflected in the next revisions to the SIP Call ICR.

Although not indicated in Table 1, there are two primary ways in which the parts 72 and 75 revisions could result in some increased burden or cost. First, the regulated industry and State and local agencies involved with part 75 monitoring will have to review the revised regulation to understand the changes. The existing ARP and SIP Call ICRs have accounted for this increase in a line item for ongoing rule review. Nevertheless, it is important to note that new units just initiating part 75 monitoring in response to the NO_X SIP Call will experience less burden as a consequence of the numerous clarifications, the specific changes to address NO_X mass monitoring issues, and the removal of outdated sections. Taken as a whole, EPA does not believe that the regulatory review burdens will be significant.

The second type of burden or cost increase would be associated with any required DAHS software changes that may be necessary to the extent the rule revisions affect recording and reporting data in the required electronic data formats. Generally, EPA has attempted to minimize any DAHS impacts associated with these revisions. There are some optional elements of the rule revisions that could require DAHS software changes, but only if the owner or operator decides to take advantage of the option for its circumstances. EPA believes many sources will only avail themselves of these types of changes as part of other routine monitoring system component upgrades. As noted in Section V., Rule Implementation, of this preamble, sources regulated under part 75 will have additional time to comply with certain provisions. Consequently, the expected impact associated with DAHS changes is also expected to be minimal.

In the proposed rule, the Agency specifically requested comment on its assessment of information burden imposed by these requirements and received no comments on the subject. Burden means the total time, effort, or financial resources expended by persons to generate, maintain, retain, or disclose or provide information to or for a Federal agency. This includes the time needed to review instructions; develop, acquire, install, and utilize technology and systems for the purpose of collecting, validating, and verifying information; process and maintain information and disclose and provide information; adjust the existing ways to comply with any previously applicable instructions and requirements; train personnel to respond to a collection of information; search existing data sources; complete and review the collection of information; and transmit or otherwise disclose the information.

An agency may not conduct or sponsor, and a person is not required to respond to, a collection of information unless it displays a valid OMB control number. The OMB control numbers for EPA's regulations are listed in 40 CFR part 9 and 48 CFR chapter 15.

D. Regulatory Flexibility Act (RFA) as Amended by the Small Business Regulatory Enforcement Fairness Act of 1996 (SBREFA), 5 U.S.C. 601 et. seq.

The RFA generally requires an agency to prepare a regulatory flexibility analysis of any rule subject to notice and comment rulemaking requirements under the Administrative Procedure Act or any other statute unless the agency certifies that the rule will not have a significant economic impact on a substantial number of small entities. Small entities include small businesses, small organizations, and small governmental jurisdictions.

After considering the economic impacts of today's final rule on small entities, I certify that this action will not have a significant economic impact on a substantial number of small entities. In determining whether a rule has a significant economic impact on a substantial number of small entities, the impact of concern is any significant adverse economic impact on small entities, since the primary purpose of the regulatory flexibility analyses is to identify and address regulatory alternatives “which minimize any significant economic impact of the proposed rule on small entities.” 5 U.S.C. 603 and 604. Thus, an agency may certify that a rule will not have a significant economic impact on a substantial number of small entities if the rule relieves regulatory burden, or otherwise has a positive effect on the small entities subject to the rule. Today's final action adds flexibility to the existing procedures for monitoring and reporting and makes other streamlining improvements and clarifications to the existing regulations. The EPA has therefore concluded that today's final rule will have no adverse impacts on small entities and may relieve burden in some cases.

E. National Technology Transfer and Advancement Act

As noted in the proposed rule, section 12(d) of the National Technology Transfer and Advancement Act of 1995 (“NTTAA”), Public Law No. 104-113 15 U.S.C. 272 note, directs EPA to use voluntary consensus standards in its regulatory activities unless to do so would be inconsistent with applicable law or otherwise impractical. Voluntary consensus standards are technical standards (e.g., materials specifications, test methods, sampling procedures, and business practices) that are developed or Start Printed Page 40419adopted by voluntary consensus standards bodies. The NTTAA directs EPA to provide Congress, through OMB, explanations when the Agency decides not to use available and applicable voluntary consensus standards.

This rulemaking involves environmental monitoring or measurement. Consistent with the Agency's Performance Based Measurement System (“PBMS”), part 75 sets forth criteria that allow the use of alternative methods to the ones identified in part 75. The PBMS approach is intended to be more flexible and cost effective for the regulated community; it is also intended to encourage innovation in analytical technology and improved data quality.

EPA specifically requested public comment on any other voluntary consensus standards which may be appropriate for the part 75 rule revisions and no such comments were received. The EPA is not precluding the use of any method, whether it constitutes a voluntary consensus standard or not, as long as it meets the performance criteria specified; however, any alternative methods must be approved through the petition process under § 75.66(c) before they may be used under part 75.

F. Executive Order 13045: Protection of Children From Environmental Health Risks and Safety Risks

Executive Order 13045, entitled “Protection of Children from Environmental Health Risks and Safety Risks” (62 FR 19885, April 23, 1997), applies to any rule that: (1) Is determined to be “economically significant” as defined under Executive Order 12866, and (2) concerns an environmental health or safety risk that EPA has reason to believe may have a disproportionate effect on children. If the regulatory action meets both criteria, the Agency must evaluate the environmental health or safety effects of the planned rule on children, and explain why the planned regulation is preferable to other potentially effective and reasonably feasible alternatives considered by the Agency.

Today's rule is not subject to Executive Order 13045 because it is not economically significant as defined in Executive Order 12866, and because the Agency does not have reason to believe the environmental health or safety risks addressed by this action present a disproportionate risk to children.

G. Executive Order 13132: Federalism

Executive Order 13132, entitled “Federalism” (64 FR 43255, August 10, 1999), requires EPA to develop an accountable process to ensure “meaningful and timely input by State and local officials in the development of regulatory policies that have federalism implications.” “Policies that have federalism implications” is defined in the Executive Order to include regulations that have “substantial direct effects on the States, on the relationship between the national government and the States, or on the distribution of power and responsibilities among the various levels of government.”

Today's action does not have federalism implications. It will not have substantial direct effects on the States, 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 Executive Order 13132. This final rule does not create a mandate upon State, local, or tribal governments, except to the extent such governments own or operate an affected source. Even in those cases, the proposed rule revisions do not have federalism implications and do not impose significant compliance costs beyond the costs already incurred under part 75. Thus, Executive Order 13132 does not apply to this rule.

As discussed above in Section III. and in the spirit of Executive Order 13132, and consistent with EPA policy to promote communications between EPA and State and local governments, EPA specifically worked with and solicited comment on the proposed rule from State and local officials.

H. Executive Order 13175: Consultation and Coordination with Indian Tribal Governments

Executive Order 13175, entitled “Consultation and Coordination with Indian Tribal Governments” (65 FR 67249, November 6, 2000), requires EPA to develop an accountable process to ensure “meaningful and timely input by tribal officials in the development of regulatory policies that have tribal implications.” “Policies that have tribal implications” is defined in the Executive Order to include regulations that have “substantial direct effects on one or more Indian tribes, on the relationship between the Federal government and the Indian tribes, or on the distribution of power and responsibilities between the Federal government and Indian tribes.”

This final rule does not have tribal implications. It will not have substantial direct effects on tribal governments, on the relationship between the Federal government and Indian tribes, or on the distribution of power and responsibilities between the Federal government and Indian tribes, as specified in Executive Order 13175. Thus, Executive Order 13175 does not apply to this rule.

Moreover, as discussed above in Section III. and in the spirit of Executive Order 13175, and consistent with EPA policy to promote communications between EPA and tribal governments, EPA specifically solicited comment on the proposed rule from tribal officials.

I. Executive Order 13211: Actions Concerning Regulations That Significantly Affect Energy Supply, Distribution, or Use

This rule is not a “significant energy action” as defined in Executive Order 13211, “Actions Concerning Regulations That Significantly Affect Energy Supply, Distribution, or Use” (66 FR 28355, May 22, 2001) because it is not likely to have a significant adverse effect on the supply, distribution, or use of energy. Further, we have concluded that this rule is not likely to have any adverse energy effects.

J. Congressional Review Act

The Congressional Review Act, 5 U.S.C. 801 et seq., as added by the Small Business Regulatory Enforcement Fairness Act of 1996, 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 United States. EPA will submit a report containing this rule and other required information to the U.S. Senate, the U.S. House of Representatives, and the Comptroller General of the United States prior to publication of the rule in the Federal Register. This rule will take affect July 12, 2002.

List of Subjects

40 CFR Part 72

• Environmental protection
• Acid rain
• Administrative practice and procedure
• Air pollution control
• Continuous emission monitoring
• Electric utilities
• Nitrogen oxides
• NO

40 CFR Part 75

• Environmental protection
• Acid rain
• Administrative practice and procedure
• Air pollution control
• Carbon dioxide
• Continuous emission monitoring (CEM)
• Electric generating units (EGUs)
• Electric utilities
• Nitrogen oxides
• Non-electric generating units (Non-EGUs)
• Non-load based units
• NO

For the reasons set out in the preamble, title 40 chapter I of the Code of Federal Regulations is amended as follows:

PART 72—PERMITS REGULATION

1. The authority citation for part 72 continues to read as follows:

Authority: 42 U.S.C. 7601 and 7651, et seq.

2. Section 72.2 is amended by:

a. Revising the definitions of “Cogeneration unit”, “Continuous emission monitoring system or CEMS”, “Low mass emissions unit”, “Missing data period”, “Pipeline natural gas”, “Stack operating hour”, and “Unit operating hour”;

b. In the definition of “Automated data acquisition and handling system” by adding the words “moisture monitors,” before the word “opacity”;

c. In the definition of “By-pass stack” by removing the hyphen from the word “Bypass”;

d. In paragraph (1) of the definition of “Calibration error” by adding the word “a” before the words “gaseous monitor”;

e. In the definition of “Compliance plan” by adding a closing parenthesis after the second instance of the words “part 76 of this chapter”;

f. In the definition of “Continuous opacity monitoring system or COMS” by revising the words “systems are component parts” in the second sentence to read “components are”, and in paragraph (2) by revising the word “A” to read “An automated”;

g. Revising paragraph (2) of the definition of “Emergency fuel”;

h. In the definition of “Fuel flowmeter QA operating quarter” by removing the words “or more” at the end of the definition;

i. Removing the definition of “Heat input” and adding in its place a new definition “Heat input rate”;

j. Removing the definition of “Hour before and after” and adding in its place a new definition of “Hour before and Hour after”;

k. Removing the definition of “Maximum potential NO _X emission rate” and adding in its place “Maximum potential NO_X emission rate or MER”;

l. Removing the definition of “Maximum rated hourly heat input” and adding in its place the definition for “Maximum rated hourly heat input rate”;

m. In the definition for “monitor accuracy” by removing the words “or by one of its component parts”;

n. In the definition of “Natural gas” by revising the second sentence, and by removing the word “meet” and revising the “%” symbol to read “percent” in the third sentence;

o. In the definition of “Peaking unit” by adding a new paragraph (4);

p. In the definition of “Relative accuracy” by adding the words “or moisture” after the words “between the pollutant” and by adding the words “or moisture monitor” after the words “flow monitor”;

q. Adding new definitions for “Common pipe”, “Common pipe operating time”, “Diluent cap value”, “Fuel flowmeter system”, “Fuel usage time”, “Multiple stack configuration”, “Stack operating time”, and “Unit operating time”.

The revisions and additions read as follows:

PART 75—CONTINUOUS EMISSION MONITORING

3. The authority citation for Part 75 continues to read as follows:

Authority: 42 U.S.C. 7601, 7651k, and 7651k note.

4. Section 75.1 is amended by adding the words “[the Act]” at the end of the first sentence of paragraph (a).

5. Section 75.4 is amended by:

a. In paragraphs (b)(2) and (c)(2) by revising the words “Not later than 90” to read “The earlier of 90 unit operating days or 180 calendar”, and, in paragraph (c)(2), by revising the word “becomes” to read “first operates after becoming”;

b. In the first sentence of paragraph (d) by revising the words “the earlier of 45” to read “90”, adding the words “(whichever occurs first)” following the words “180 calendar days”, and Start Printed Page 40422removing the words “of the affected unit” after the words “recommences commercial operation”;

c. Revising paragraphs (d)(1), (f) introductory text, (f)(1), (i)(2) and (i)(3);

d. In paragraph (e) introductory text, by revising the words “90 calendar days” to read “90 unit operating days or 180 calendar days (whichever occurs first)”, by removing the word “or” in each instance that it occurs between “flue, or flue gas” or “flue or flue gas”, by adding a comma between the words “flue” and “flue gas” in the second sentence, and by adding “or add-on NO _X emission controls” after each occurrence of “desulfurization system”;

e. Removing and reserving paragraph (h);

f. In paragraph (i)(1), by removing the word “or”; and

g. Adding paragraph (j).

The revisions and additions read as follows:

(d) * * *

(1) The maximum potential concentration of SO₂ (as defined in section 2.1.1.1 of appendix A to this part), the maximum potential NO_X emission rate, as defined in § 72.2 of this chapter, the maximum potential flow rate, as defined in section 2.1.4.1 of appendix A to this part, or the maximum potential CO₂ concentration, as defined in section 2.1.3.1 of appendix A to this part;

(f) In accordance with § 75.20, the owner or operator of an affected gas-fired or oil-fired peaking unit, if planning to use appendix E of this part, shall ensure that the required certification tests for excepted monitoring systems under appendix E are completed for backup fuel, as defined in § 72.2 of this chapter, no later than 90 unit operating days or 180 calendar days (whichever occurs first) after the date that the unit first combusts the backup fuel following the certification testing with the primary fuel. If the required testing is completed by this deadline, the appendix E correlation curve derived from the test results may be used for reporting data under this part beginning with the first date and hour that the backup fuel is combusted, provided that the fuel flowmeter for the backup fuel was certified as of that date and hour. If the required appendix E testing has not been successfully completed by the compliance date in this paragraph, then, until the testing is completed, the owner or operator shall report NO_X emission rate data for all unit operating hours that the backup fuel is combusted using either:

(1) The fuel-specific maximum potential NO_X emission rate, as defined in § 72.2 of this chapter; or

(h) [Reserved]

(i) * * *

(2) For a new affected unit which has not commenced commercial operation by January 2, 2000, 90 unit operating days or 180 calendar days (whichever occurs first) after the date the unit commences commercial operation; or

(3) For an existing unit that is shutdown and is not yet operating by April 1, 2000, 90 unit operating days or 180 calendar days (whichever occurs first) after the date that the unit recommences commercial operation.

(j) If the certification tests required under paragraph (b) or (c) of this section have not been completed by the applicable compliance date, the owner or operator shall determine and report SO₂ concentration, NO_X emission rate, CO₂ concentration, and flow rate data for all unit operating hours after the applicable compliance date in this paragraph until all required certification tests are successfully completed using either:

(1) The maximum potential concentration of SO₂, as defined in section 2.1.1.1 of appendix A to this part, the maximum potential NO_X emission rate, as defined in § 72.2 of this chapter, the maximum potential flow rate, as defined in section 2.1.4.1 of appendix A to this part, or the maximum potential CO₂ concentration, as defined in section 2.1.3.1 of appendix A to this part;

(2) Reference methods under § 75.22(b); or

(3) Another procedure approved by the Administrator pursuant to a petition under § 75.66.

6. Section 75.6 is amended in paragraphs (a)(17), (a)(18), (a)(19), (a)(26) and (a)(35) by removing the words “§ 75.15 and”.

7. Section 75.10 is amended by:

a. In paragraph (a)(1) by revising the first occurrence of the word “The” in the first sentence to read “To determine SO ₂ emissions, the”, and by revising the words “the automated” to read “an automated”;

b. In paragraph (a)(2) by revising the word “The” in the first sentence to read “To determine NO _X emissions, the”; by adding the word “-diluent” after the first occurrence of the word “NO_X” in the first sentence; and by revising the words “the automated” to read “an automated”;

c. In paragraph (a)(3)(i) by revising the words “the automated” to read “an automated”;

d. In paragraph (a)(3)(iii) by revising the words “using an O ₂ concentration monitor in order” to read “that uses an O₂ concentration monitor,” and by revising the words “using the procedures in appendix F of this part with the automated” to read “(according to the procedures in appendix F of this part) with an automated”;

e. Removing “and” at the end of paragraph (a)(3)(iii) and removing the period at the end of paragraph (a)(4) and adding “; and” in its place;

f. Adding new paragraph (a)(5);

g. In paragraph (c) by adding the word “Rate” after the words “Heat Input” in the heading and by adding the words “rate, in units of mmBtu/hr,” after the words “record the heat input”;

h. In paragraph (d)(1) by removing the words “and component thereof” from the first sentence, removing the words “SO ₂ emission rate in lb/mmBtu (if applicable),” from the second sentence, and by adding the word “or” after the words “of this part,” in the fourth sentence;

i. In paragraph (d)(3) by revising the words “flow monitor, or NO _X” in the first sentence to read “NO_X concentration monitor, flow monitor, moisture monitor, or NO_X-diluent”, by revising the words “An hourly average NO_X or SO₂” in the second sentence to read “For a NO_X-diluent monitoring system, an hourly average NO_X”, by adding the word “NO_X” before the word “pollutant” and by removing the words “(NO_X or SO₂)” in the second sentence, and by revising in the fourth sentence the words “Except for SO₂ emission rate data in lb/mmBtu, if” to read “If”;

j. In paragraph (f) by removing the words “and component thereof”; and

k. Revising the heading of paragraph (g) from “Minimum Recording and Recordkeeping Requirements” to “Minimum recording and recordkeeping requirements”.

The revisions and additions read as follows:

8. Section 75.11 is amended by:

a. Revising the word “psychometric” in paragraph (b)(2) to read “psychrometric”;

b. In the second sentence of paragraph (e)(1) by adding the words “(according to the applicable equation in section 5.2 of appendix F to this part)” after the word “monitor”, and by removing the words “, and equation D-5 in appendix D to this part”;

c. In paragraph (e)(2) by revising in the first sentence the words “§ 75.55 or § 75.58, as applicable,” to read “§ 75.58,”, and by, in the second sentence, adding the word “rate” after “heat input” and revising the words “§ 75.54(b)(5) or § 75.57(b)(5), as applicable” to read § 75.57(b)(5)”;

d. In paragraph (e)(3), by removing the third sentence, removing the period at the end of the second sentence and adding a colon, removing the words “then on and after April 1, 2000,” in the second sentence, and by revising the words “be subject to” to read “meet” in the second sentence; and

e. In the first sentence of paragraph (e)(3)(iii) by adding the words “bias-adjusted” before the words “hourly average”.

9. Section 75.12 is amended by:

a. Revising the section heading;

b. In paragraph (a) by adding the word “(CEMS)” after the words “continuous emission monitoring system” in the first sentence and by revising the words “NO _X continuous emission monitoring system” to read “ NO_X-diluent CEMS” in the second sentence;

c. In paragraph (d)(2) by adding the word “-diluent” after NO _X in the second sentence, and by adding a new third sentence; and

d. In paragraph (e) by revising the reference to “(c)” to read “(d)”.

The revisions and additions read as follows:

10. Section 75.13 is amended by:

a. In paragraph (b), by revising in the heading the words “Appendix G of” to read “appendix G to”, and by revising in the first sentence the words “may provide information satisfactory to the Administrator” to read “shall follow the procedures in appendix G to this part”; and

b. In paragraph (c) by revising in the first sentence the word “may” to read “shall” and the words “dry basis” to read “dry basis (or where Equation F-14b in appendix F to this part is used to determine CO ₂ concentration), either”, and by revising the comma after the reference to “§ 75.11(b)(1)” to a semicolon.

11. Section 75.15 is removed and reserved.

12. Section 75.16 is amended by:

a. Removing the hyphen from the word “by-pass” in the section heading;

b. Removing and reserving paragraph (a);

c. Revising paragraph (b) heading and introductory text;

d. Revising paragraph (c);

e. Amending paragraphs (e) heading, (e) introductory text, (e)(2), (e)(3), and (e)(4) by adding the word “rate” after each occurrence of the words “heat input”;

f. In paragraph (e)(1) by revising in the first sentence the words “choose to install” to read “use the flow rate and diluent”, by removing in the first sentence the words “wherever flow and diluent monitor measurements are used to determine the heat input,”, by revising the words “(a) through (d)” to read “(b) through (d)” in the first sentence, by revising the words “(a)(1)(ii), (a)(2)(ii), (b)(1)(ii),” to read “(b)(1)(ii)”, and by adding at the end of the paragraph the words “, according to paragraph (e)(3) of this section”;

g. In paragraph (e)(2) by revising the words “appendix F of” to read “appendix F to”; and

h. In paragraph (e)(3) by adding in the second sentence the words “, in conjunction with the appropriate unit and stack operating times” after the words “total steam flow for all units utilizing the common stack”.

The revisions and additions read as follows:

13. Section 75.17 is amended by:

a. Removing the hyphen from the word “by-pass” in the section heading;

b. In the introductory text by revising the words “and (c)” to read “(c), and (d)”;

c. In paragraph (b)(1) by revising the word “NO _X” to read “NO_X-diluent”;

d. Revising the paragraph heading and first sentence of paragraph (c) introductory text;

e. Revising paragraphs (c)(1) and (c)(2); and

f. Adding new paragraph (d).

The revisions and additions read as follows:

14. Section 75.19 is amended by:

a. Revising the section heading, paragraph (a), and paragraphs (b)(1), (b)(2), (b)(3), (b)(4)(i), (b)(5), (c)(1)(i), (c)(1)(ii), (c)(1)(iii), (c)(1)(iv)(C), (c)(3)(ii)(C), (c)(3)(ii)(D) introductory text, (c)(3)(ii)(D)( 1), (c)(3)(ii)(E), (c)(3)(ii)(F), (c)(3)(ii)(G), (c)(3)(ii)(H), and (e)(2);

b. In paragraph (b)(4) introductory text by revising the words “unit commencing operation after January 1, 1997” to read “new or newly-affected unit” and the words “a low” to read “the low”;

c. Amending paragraph (b)(4)(ii) by revising the words “NO _X, and CO2” to read “CO2, and/or NO_X”;

d. Amending paragraph (b)(4)(iii) by revising the words “and NO _X” in the first sentence to read “and/or NO_X”, revising the second sentence, and by revising the word “The” in the third sentence to read “For Acid Rain Program LME units, the”;

e. In paragraph (c)(1)(iv) introductory text by adding a new sentence after the second sentence;

f. By revising in the first sentence of paragraph (c)(1)(iv)(A) the words “(c)(1)(iv)(F) and (G) of this paragraph” to read “(c)(1)(iv)(F), (c)(1)(iv)(G), and (c)(1)(iv)(I) of this section” and by adding new paragraphs (c)(1)(iv)(A)( 3) and (4) and Equation LM-1a;

g. Removing and reserving paragraph (c)(1)(iv)(B)(3);

h. Amending paragraph (c)(1)(iv)(B)( 4) by revising the reference to “(c)(1)(iv)(B)(3)” to read “(c)(1)(iv)(B)(1)”;

i. In paragraph (c)(1)(iv)(D) by revising in the first sentence the words “, each unit in a group of units sharing a common fuel supply, or” to read “or group of”, by adding in the first sentence the words “(20 calendar quarters)” after the words “five years”, and by adding a new sentence after the second sentence;

j. Amending paragraph (c)(1)(iv)(E) by removing the words “, each low mass emission unit in a group of units combusting a common fuel,”;

k. Revising the first and last sentences of (c)(1)(iv)(G);

l. Amending the first sentence of (c)(1)(iv)(H) by revising the first occurrence of the words “NO _X emission controls,” to read “add-on NO_X emission controls, and for units that use dry low-NO_X technology,”;

m. Amending the last sentence of (c)(1)(iv)(H)( 1) by adding the words “, and the appropriate default NO_X emission rate from Table LM-2 shall be reported instead” after the words “that hour”;

n. Redesignating existing paragraph (c)(1)(iv)(H)( 2) as (c)(1)(iv)(H)(3), and adding the words “, and the appropriate default NO_X emission rate from Table LM-2 shall be reported instead” after the words “that hour” and adding new paragraph (c)(1)(iv)(H)(2);

o. Adding new paragraphs (c)(1)(iv)(I) and (c)(1)(iv)(J);

p. In paragraph (c)(2) introductory text by adding the words “, except that for unmanned facilities, the records may be kept at a central location, rather than on-site” after the word “inspection”;

q. In paragraph (c)(2)(iii) by revising the word “output” to read “load” and by adding the words “per hour” after the words “pounds of steam”;

r. In paragraph (c)(2)(iv) by adding the words “add-on” after the words “unit with” and adding the words “and each unit that uses dry low-NO _X technology” after the words “of any kind”; Start Printed Page 40425

s. In paragraph (c)(3)(i)(A) by adding “HI _hr,” after the words “of this section,” in the first sentence, by revising Eq. LM-1 in paragraph (c)(3)(i)(B) and the accompanying variable definitions, and by adding a new paragraph (c)(3)(i)(D);

t. In paragraphs (c)(3)(ii)(I) and (c)(3)(ii)(J) by revising the definition of variables following Equations LM-7, LM-8, LM-7a, and LM-8a;

u. In paragraph (c)(4)(i)(A) by adding the words “(Acid Rain Program units, only)” after the word “unit” in the first sentence, by capitalizing the first letter of the word “where”, and by revising the definition of variable “EF _SO2” for Equation LM-9;

v. In paragraph (c)(4)(ii)(A) by correcting the variables “WNO _X” and “EFNO_X” to read “W_NOX” and “EF_NOX”;

w. In paragraph (c)(4)(ii)(C) by adding a new sentence to the end of this paragraph;

x. In paragraph (c)(4)(iii)(A) by adding the words “(Acid Rain Program units, only)” after the word “unit” in the first sentence and by revising the definition of the variable “EFCO2” under Equation LM-11;

y. Amending paragraph (e)(5) by revising the words “which have NO _X emission controls of any kind” to read “which has add-on NO_X emission controls of any kind or uses dry low-NO_X technology”;

z. Adding new paragraph (e)(6) between paragraph (e)(5) and table LM-1;

aa. Amending Table LM-2 that follows paragraph (e) by revising the words “Boiler type” to read “Unit type” in heading for the first column;

bb. Amending Table LM-3 that follows paragraph (e) by revising the words “Natural Gas” to read “Pipeline (or other) Natural Gas” in the first column; and

cc. Amending Table LM-5 that follows paragraph (e) by adding the word “Other” before “Natural Gas” in the first column of the table.

The revisions and additions read as follows:

15. Section 75.20 is amended by:

a. Revising paragraphs (b)(3)(i), (c)(2)(ii), (c)(2)(iii), (c)(4) introductory text, (c)(4)(i) through (iii), (g)(2), (h)(1), (h)(3), (h)(4) introductory text, (h)(4)(i) and (h)(4)(ii);

b. In the first sentence of paragraph (a) by removing the words “, which includes the automated data acquisition and handling system, and, where applicable, the CO ₂ continuous emission monitoring system,”;

c. In paragraph (a)(3) by revising in the first sentence the words “section for each continuous emission or opacity monitoring system or component thereof,” to read “section, each”, by removing the words “or component thereof” in each of the two remaining occurrences of these words, and by adding the word “conditional” before the words “data validation” in the last sentence;

d. In paragraph (a)(4)(iii) by removing each occurrence of the words “or component thereof”, by adding the word “conditional” immediately before each occurrence of “data validation”, and by removing the words “, until the date and time that the owner or operator completes subsequently approved initial certification or recertification tests” that appear at the end of the second sentence;

e. In paragraph (a)(4)(iv) by removing the words “or component thereof,”;

f. In the first sentence of paragraph (a)(5)(i) by removing the words “or component thereof” and by adding the words “(or, if the conditional data validation procedures in paragraphs (b)(3)(ii) through (b)(3)(ix) of this section are used, until a probationary calibration error test is passed following corrective actions in accordance with paragraph (b)(3)(ii) of this section)” after the words “successfully completed”;

g. In paragraph (b)(2) by removing the word “not” before the words “required for certification”;

h. In paragraph (b)(5) by revising the third and fourth sentences;

i. In paragraph (c) introductory text by adding in the third sentence the word “otherwise” before the word “specified,” and the words “and in sections 6.3.1 and 6.3.2 of appendix A to this part,” after the words “(b)(1), (d), & (e) of this section,”;

j. Removing the second paragraph designated (c)(1)(v) and paragraph (h)(4)(iii);

k. Adding new paragraphs (c)(2)(iv) and (h)(5);

l. In paragraph (d)(2)(iii) by removing the words “or SO ₂-diluent” in the third sentence, by revising the last sentence, and by adding two new sentences at the end of the paragraph;

m. In paragraph (d)(2)(v) by adding the words “(or 720 hours in any ozone season, for sources that report emission data only during the ozone season, in accordance with § 75.74(c))” after the words “one calendar year” in the first sentence and by adding the words “(or ozone season, as applicable)” after the words “per calendar year” in the second sentence;

n. In the third sentence of (d)(2)(vii) by revising the words “analyzer and specify” to read “analyzer, beginning with the letters “LK” ( e.g., “LK1,” “LK2,” etc.) and shall specify”;

o. Adding a sentence to the end of paragraph (g)(1)(i);

p. In paragraph (g)(5) by adding the words “(or recertified)” after both occurrences of the words “provisionally certified”, by adding the words “or for disapproval of a recertification request” and “or denial of a recertification request” after, respectively, the first and second occurrence of the words “loss of certification” in the second sentence, and by removing the word “either” from the second sentence; and

q. In paragraph (h)(2) by revising the reference to “§ 75.63(a)(1)(iii)” to read “§ 75.63(a)(1)(ii)”.

The revisions and additions read as follows:

16. Section 75.21 is amended by:

a. In paragraph (a)(7) by adding the words “only for infrequent, non-routine operations (e.g.,” after the words “higher sulfur fuel(s)” in the first sentence, and by adding a closing parenthesis after the words “short-term testing” in the first sentence;

b. In paragraph (a)(8) by removing the words “On and after April 1, 2000” and by capitalizing the initial occurrence of the word “the”;

c. In paragraph (a)(9) by revising in the first sentence the words “exempted under paragraphs (a)(6) or (a)(7) of this section from the SO ₂ RATA requirements of this part” to read “exempted from the SO₂ RATA requirements of this part under paragraphs (a)(6) or (a)(7) of this section”; and

d. In paragraph (e)(2) by revising the word “another” to read “other”.

17. Section 75.22 is amended by:

a. Removing the last sentence of paragraph (a) introductory text;

b. In the last sentence of paragraph (a)(4) by revising the word “techniques” to read “wet bulb-dry bulb technique”; and

c. Adding a sentence to the end of paragraph (a)(5).

The revisions read as follows:

18. Section 75.24 is amended by:

a. Revising paragraph (a)(1); and

b. In paragraph (c)(2) by removing the words “or certified portable monitor or”.

The revisions read as follows:

19. Section 75.30 is amended by:

a. In paragraph (a)(6) by revising the period at the end of the paragraph to read “; or”;

b. Adding new paragraphs (a)(7) and (a)(8);

c. In the first sentence of paragraph (b) by adding the words “percent moisture,” after the words “flow rate,”; and

d. In paragraphs (d)(1) and (d)(2) by removing the words “§ 75.54(b)(5) or” and the words “as applicable,”.

The revisions and additions read as follows:

20. Section 75.31 is amended by:

a. Revising the first sentence of paragraph (a);

b. Revising paragraph (c) heading introductory text, and paragraph (c)(1);

c. Adding a new sentence to the beginning of paragraph (c)(2);

d. In paragraph (c)(3) by adding the words “(or for non-load-based units using operational bins, when no prior quality-assured data exist in the corresponding operational bin)” after the words “higher load range”; and

e. Adding a new paragraph (d).

The revisions and additions read as follows:

21. Section 75.32 is amended by:

a. Revising paragraph (a) introductory text and paragraph (a)(2) (except for Equation 9);

b. In paragraph (a)(1) by adding the words “or stack” after the word “unit” and revising the word “equation” to read “Equation”; and

c. In paragraph (a)(3) by revising the first three sentences.

The revisions and additions read as follows:

22. Section 75.33 is amended by:

a. Revising paragraph (a), removing Tables 1 and 2 after paragraph (a), and revising paragraph (c) introductory text;

b. Adding paragraphs (b)(5), (b)(6), (b)(7), (c)(7), (c)(8), (c)(9), (d), and (e), including new Tables 3 and 4;

c. In paragraph (c)(1) introductory text and paragraph (c)(2) introductory text by removing the words “or continuous emission monitoring system”;

d. In paragraphs (c)(1)(i), (c)(1)(ii)(A), (c)(2)(i), (c)(2)(ii)(A), and (c)(3) by adding the words “or operational bin” after each occurrence of the words “unit load range”;

e. In paragraph (c)(3) by removing the words “section 2 of”;

f. In paragraph (c)(4) by adding a sentence to the end of the paragraph;

g. In paragraph (c)(5) by adding a new first sentence; and

h. In paragraph (c)(6) by revising the words “for either the corresponding load range or a higher load range” to read “at either the corresponding load range (or a higher load range) or at the corresponding operational bin”.

The revisions and additions read as follows:

23. Section 75.34 is amended by:

a. Revising paragraph (a) introductory text, and paragraphs (a)(1) and (d);

b. Redesignating paragraphs (a)(2) and (a)(3) as paragraphs (a)(3) and (a)(4), respectively;

c. Adding a new paragraph (a)(2);

d. In the second sentence of newly redesignated paragraph (a)(4) by removing the words “§ 75.55(b) or” and “, as applicable”; and

e. In paragraph (c) by revising the word “NO _X 2” to read “NO_X”.

The revisions and additions read as follows:

24. Section 75.35 is revised to read as follows:

25. Section 75.36 is amended by:

a. Revising the section heading;

b. In paragraph (a) by adding the word “rate” after the words “hourly heat input” in the first sentence, by adding the word “rate” after the words “heat input” in the second and third sentences, by removing the words “On and after April 1, 2000” in the third sentence and capitalizing “When” to begin that sentence, and by removing the final sentence;

c. Revising paragraph (b);

d. Removing and reserving paragraph (c); and

e. In paragraph (d) by adding the word “rate” after each occurrence of the word “input”.

The revisions and additions read as follows:

26. Section 75.37 is amended by:

a. In paragraph (a) by revising the words “On and after April 1, 2000, the” to read “The” and by removing the second sentence;

b. Revising paragraphs (c) and (d)(2)(i); and

c. In paragraph (d) introductory text by removing the words “of the moisture monitoring system”.

The revisions and additions read as follows:

27. Section 75.41 is amended by:

a. In paragraph (b)(2)(v)(B) by adding the words “(Eq. 22)” immediately before “where”; and

b. By revising Equation 27 in paragraph (c)(2)(ii).

The revisions and additions read as follows:

28. Section 75.53 is amended by:

a. Removing and reserving paragraphs (c) and (d);

b. Revising paragraphs (a)(1), (e)(1)(viii), and (f)(1)(i)(F);

c. In paragraph (b) by adding the words “, by the applicable deadline specified in § 75.62 or elsewhere in this part” prior to the period at the end of the paragraph;

d. In paragraph (e)(1)(i) introductory text by adding the words “(or equivalent facility ID number assigned by EPA, if the facility does not have an ORISPL number)” after the words “Data Base”;

e. In paragraph (e)(1)(i)(D) by adding the words “/emergency/startup” after the words “primary/secondary”;

f. In paragraph (e)(1)(i)(E) by adding the words “primary/secondary controls indicator;” after the words “(if applicable);”;

g. In paragraph (e)(1)(ix) by revising the words “Part 75 monitoring” to read “Monitoring” and by revising the words “reporting year, and 767 reporting indicator” to read “ARP/Subpart H facility ID number or ORISPL number (as applicable), reporting year, and 767 reporting indicator (or equivalent)”;

h. In paragraph (e)(1)(xii) introductory text by revising the words “For each unit or common stack (except for peaking units)” to read “Unless otherwise specified in section 6.5.2.1 of appendix A to this part, for each unit or common stack”;

i. In paragraph (e)(1)(xii)(A) and (B) by adding the words “, or ft/sec (as applicable)” to the end of each paragraph, and by adding a comma after “megawatts” in each paragraph;

j. In paragraph (e)(1)(xii)(D) by revising the first occurrence of the word “load” to read “data” and by adding the words “(or operating)” after each other occurrence of the word “load” and in paragraphs (e)(1)(xii)(B), (C), and (E) by adding the words “or operating” after each occurence of the word “load”;

k. In paragraph (f)(2)(i)(F) by adding the word “rate” after the word “input” and the word “emission” after the word “NO _X”;

l. In paragraph (f)(2)(i)(H) by adding the words “or ozone season” after the word “year” and by revising the word “part” to read “chapter”;

m. In paragraph (f)(5) introductory text by adding the words “that accompanies the initial certification application” to the end of the paragraph;

n. In paragraph (f)(5)(i) by revising the second sentence and by adding a third sentence and new paragraphs (f)(5)(i)(A) through (F);

o. In paragraph (f)(5)(ii)(C) by revising the words “natural gas or” to read “gaseous fuel(s) and/or” in two occurrences: and

p. In paragraph (f)(5)(ii)(E) by adding the words “, estimated” after the word “actual”.

The revisions and additions read as follows:

29. Section 75.54 is removed and reserved.

30. Section 75.55 is removed and reserved.

31. Section 75.56 is removed and reserved.

32. Section 75.57 is amended by:

a. Revising the introductory paragraph;

b. In paragraph (a)(3) by removing the words “§ 75.55 or” and “as applicable,”;

c. In paragraph (a)(4) by removing both occurrences of the words “§ 75.56 or”;

d. Revising Table 4a at the end of paragraph (c)(4)(iv);

e. Amending paragraph (d)(6) and (d)(7) by removing the words “either”, Start Printed Page 40441“hundredth or”, and “prior to April 1, 2000 and rounded to the nearest thousandth on and after April 1, 2000”.

The revisions read as follows:

33. Section 75.58 is amended by:

a. Revising the introductory paragraph;

b. In paragraphs (b)(1)(i) and (c) introductory text by removing the words “§ 75.54(c) or”;

c. In paragraph (b)(1)(xi) and (b)(2)(vii) by removing the words “Codes 1-15 in Table 4 of § 75.54 or”;

d. Revising paragraph (b)(3) introductory text;

e. In paragraph (b)(3)(i) by adding the words “, for each hour of missing SO ₂ or NO_X emission data,” after the word “demonstrate”;

f. In paragraph (b)(3)(ii) by adding the words “, for each hour of missing SO ₂ or NO_X emission data,” after the word “indicating”;Start Printed Page 40442

g. In paragraphs (b)(3)(iii) and (b)(3)(iv) by revising the reference to “§ 75.34(a)(2)” to read “§ 75.34(a)(3)”;

h. Adding a period to the end of paragraph (c)(7)(ii);

i. In paragraph (d) introductory text by removing the words “paragraph § 75.54(d) or”;

j. In paragraph (e)(1) by removing the words “§§ 75.54(c)(1) and (c)(3) or”;

k. In paragraph (f) introductory text by removing the words “§§ 75.54(b) through (e) or”; and

l. In paragraph (f)(1)(iii) by adding the words “other gaseous fuel,” after the words “natural gas,”.

The revisions read as follows:

34. Section 75.59 is amended by:

a. Revising the introductory paragraph;

b. In paragraph (a)(1)(vii), by revising “Calibration” to read “Reference signal or calibration”;

c. In paragraph (a)(5)(ii)(E) by removing both occurrences of the word “load” and by adding the word “operating” before the word “levels”;

d. In paragraph (a)(5)(ii)(F) by adding the words “(or operating level)” before the word “indicator”;

e. In paragraph (a)(5)(ii)(L) by adding the words “, except for units that do not produce electrical or thermal output” after the words “lb/hr)”;

f. In paragraph (a)(5)(iii)(E) by adding the words “(or operating)” before both of the two occurrences of the word “level” and by adding the words “, or as otherwise specified by the Administrator, for units that do not produce electrical or thermal output” after the words “lb/hr”;

g. In the second sentence of paragraph (a)(7) by adding the words “of this section” after the words “through (a)(7)(vi)”;

h. In paragraph (a)(7)(ii)(A) by removing the word “load”;

i. Revising paragraphs (a)(7)(ii)(P) and (a)(7)(iii)(F);

j. In paragraph (a)(10)(i)(E) by revising the reference to “(a)(7)(iii)(A)” to read “(a)(7)(iii)”;

k. In paragraph (a)(12)(v) introductory text by adding the words “(or single-level)” before the word “flow”;

l. In paragraphs (a)(12)(v)(C) and (E) by adding the words “(or operating)” before the word “level”, and by, in paragraph (C), removing the period at the end of the paragraph and adding a semicolon in its place;

m. In paragraph (a)(12)(v)(D) by adding the words “(or operating level)” before the word “data”;

n. In paragraph (b)(2)(v) by adding the word “level” after the word “high”;

o. In paragraph (b)(4)(ii)(K) by removing the word “and” after the semicolon;

p. In paragraph (b)(4)(ii)(L) by removing the period and adding in its place “; and”;

q. Adding paragraph (b)(4)(ii)(M);

r. In paragraph (c)(1) by removing the words “§ 75.55(b) or”;

s. In paragraph (d)(1) introductory text by revising the word “under” to read “using the procedures of”;

t. In paragraph (d)(1)(xi) by adding the word “and” after the semicolon and in paragraph (d)(1)(xii) by removing the semicolon and adding a period in its place;

u. Removing paragraphs (d)(1)(xiii) through (d)(1)(xvi);

v. Redesignating existing paragraph (d)(2) as (d)(3) and adding a new paragraph (d)(2); and

w. In newly designated paragraph (d)(3)(x) by revising the words “§§ 75.19(c)(1)(iv)(B)( 1) and (3)” to read “§ 75.19(c)(1)(iv)(B)(1)”.

The revisions and additions read as follows:

35. Section 75.60 is amended by:

a. In paragraph (b)(6), adding the words “in writing (or by electronic mail)” after the words “If requested”; and

b. Adding paragraph (b)(7).

The revisions and additions read as follows:

36. Section 75.61 is amended by:

a. In paragraph (a)(1) introductory text by removing the words “and except for testing only of the data acquisition and handling system” from the end of the first sentence, and by adding two new sentences to the end of the paragraph;

b. In paragraph (a)(1)(i) by revising the heading and first sentence, and by adding a new sentence after the first sentence;

c. In paragraph (a)(1)(ii) by revising the word “and” to read “, and partial” in the heading, and, in the first sentence, by adding the word Start Printed Page 40443“required” after the word “retesting”, and revising the words “recertification under § 75.20(b), notice of testing” to read “partial recertification testing required under § 75.20(b)(2), notice of the date of any required RATA testing or any required retesting under section 2.3 in appendix E to this part”;

d. In paragraph (a)(1)(iii) by adding the words “or recertification” after each occurrence of the word “certification” and by adding the words “must be aborted, or” after the words “was failed or”;

e. In paragraph (a)(1)(iv) by revising both references to “(a)(1)” to read “(a)(1)(ii)”, by adding the words “or other retests” to the end of the first sentence, and by adding the words “(or other retests)” after the words “recertification tests” in the second sentence;

f. In the first sentence of paragraph (a)(2) introductory text by adding the words “, or becomes affected,” after the words “commercial operation”;

g. In paragraph (a)(2)(i) by adding the words “or becomes affected” after the words “commences commercial operation”;

h. In paragraph (a)(2)(ii) by adding the words “or becomes affected,” after both occurrences of the words “commences commercial operation” and by removing the comma between the words “or” and “the date”;

i. In paragraph (a)(4) by removing “(a)” after the second and third occurrences of “§ 75.4”;

j. Revising the heading and the first sentence of paragraph (a)(5) introductory text;

k. In paragraph (a)(5)(ii) by adding the words “, appendix E retest, or low mass emissions unit retest” before the word “immediately”; and

l. Revising paragraph (a)(6).

The revisions and additions read as follows:

37. Section 75.62 is amended by:

a. Revising paragraph (a)(1); and

b. In the third sentence of paragraph (a)(2) by adding the words “certification or” before both occurrences of the word “recertification”.

The revisions and additions read as follows:

38. Section 75.63 is amended by:

a. In the section heading by removing the word “submittals”;

b. Revising paragraphs (a)(1)(i) and (a)(1)(ii), and removing paragraph (a)(1)(iii);

c. In paragraph (a)(2) heading by adding the words “and diagnostic testing”;

d. In paragraph (a)(2)(i) by adding the words “under § 75.20(b)” after the words “recertification tests” and the words “of this section” after the words “paragraph (b)(1)”;

e. In paragraph (a)(2)(ii) by adding, in the first sentence, the words “under § 75.20(b)” after the word “tests” and the words “of this section” after the words “paragraph (b)(2)”, and by revising, in the second sentence, the words “for submission to it of a hardcopy recertification” to read “to provide hardcopy recertification test data and results”;

f. In paragraph (a)(2)(iii) by adding the words “rather than recertification testing” after the words “are required”;

g. In paragraph (b)(1)(i), by removing the words “§§ 75.53(c) and (d), or § ” and “as applicable,”;

h. In paragraph (b)(1)(ii) by removing the words “§ 75.56 or” and “as applicable,”; and

i. In the first sentence of paragraph (b)(2)(i), by removing the words “§§ 75.53(c) and (d), or § ” and “as applicable,”.

The revisions and additions read as follows:

39. Section 75.64 is amended by:

a. In paragraph (a) introductory text by revising the first sentence, and by adding in the third sentence the words “or has been placed in long-term cold storage” after the words “§ 75.4(a)”;

b. In paragraph (a)(2) introductory text by revising the words “§§ 75.53 through 75.59” to read § 75.53 and §§ 75.57 through 75.59”;

c. In paragraph (a)(2)(iii) by removing the words “§ 75.54(f) or”;

d. In paragraph (a)(2)(iv) by removing the words “§ 75.55(b)(3) or”;

e. In paragraph (a)(2)(vi) by removing the words “§ 75.54(g) or”;

f. In paragraph (a)(2)(vii) by removing the words “§ 75.56 or”;

g. In paragraph (a)(2)(viii) by adding a comma after the word “coefficients” and by removing the words “§ 75.56(a)(5)(vii), § 75.56(a)(5)(ix),”;

h. In paragraph (a)(2)(xi) by removing the words “§ 75.56(a)(7) or”;

i. In paragraph (a)(4) by removing the words “hundredth prior to April 1, 2000 and to the nearest” and the words “on and after April 1, 2000”;

j. Removing and reserving paragraphs (a)(2)(v), (a)(8), and (e);

k. In paragraph (d) by revising the words “electronic or hardcopy” to read “(unless otherwise approved by the Administrator) electronic”; and

l. In paragraph (f) by removing the words “modem and”.

The revisions and additions read as follows:

40. Section 75.65 is amended by removing the words “§ 75.54(f) or” and “, as applicable,”.

41. Section 75.66 is amended by:

a. In paragraph (e) by removing the words “§ 75.55(b) or” and “, as applicable,”;

b. In paragraph (f) introductory text by revising the reference to “§ 75.34(a)(2)” to “§ 75.34(a)(3)”; and

c. Removing and reserving paragraph (i).

42. Section 75.70 is amended by:

a. Adding a hyphen to the term “non-affected” in paragraph (a)(1);

b. In paragraph (d)(1) by adding the words “in § 75.20” after the words “recertification procedures”;

c. Revising paragraph (e);

d. In paragraph (f) introductory text by revising the reference to “§ 75.74” to read “§ 75.74(c)(7)”;

e. In paragraph (f)(1) introductory text by revising the words “missing data procedures in subpart D of this part” to read “applicable missing data procedures in §§ 75.31 through 75.37”;

f. In paragraphs (f)(1)(i), (ii), and (iii) by adding a comma after the word “valid” and revising the words “quality assured” to read “quality-assured”;

g. In paragraphs (f)(1)(ii) and (iii) by removing the word “or” from the end of each paragraph;

h. In paragraph (f)(1)(iii) by adding the word “rate” after the first occurrence of the word “input”, revising the word “mmBtu” to read “mmBtu/hr”, and by removing the words “or by an accepted monitoring system under appendix D to this part”;

i. In paragraph (f)(1)(iv) by revising the words “volumetric flow monitor, and without a diluent monitor” to read “flow monitor”, by adding a comma after the reference to “§ 75.32”, and by removing the period and adding “; or” to the end of the paragraph;

j. Adding new paragraph (f)(1)(v);

k. In paragraph (g)(1) by adding the word “rate” after the words “and heat input”;

l. In paragraph (g)(2) by revising the words “of the unit under section 2.1 of Appendix A of” to read “, as defined in section 2.1.4.1 of appendix A to”; and

m. Revising paragraph (g)(6).

The revisions and additions read as follows:

43. Section 75.71 is amended by:

a. In paragraph (a)(1) by adding the word “rate” after the words “heat input” and by removing the hyphen after each occurrence of the words “O ₂” and “CO₂”;

b. In the second sentence of paragraph (a)(2) by removing the hyphens after the words “O ₂” and “CO₂” and by revising the words “heat input, or, if applicable, use the procedures in appendix D to this part” to read “heat input rate”;

c. In paragraph (b)(1) by revising “i.e.” to read “e.g.” and by adding the words “or to calculate the heat input rate” before the words “, the owner”;

d. In paragraph (b)(3) by adding the word “rate” after the word “input” and by adding a comma after the word “maintain”; and

e. In paragraph (c)(2) by adding the word “rate” to the end of the first Start Printed Page 40445sentence and by revising the second sentence; and

f. In paragraph (d)(2) by revising the second sentence, by revising the words “paragraph (c) of this section or, if applicable, paragraph (e)” to read “paragraph (c)(1) or (c)(2)” in the third sentence, and by adding a new sentence at the end of the paragraph.