Approval and Promulgation of Implementation Plans; Louisiana; Regional Haze State Implementation Plan, 11839-11858 [2012-4676]

Download as PDF Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules Order 13132 (64 FR 43255, August 10, 1999); • Is not an economically significant regulatory action based on health or safety risks subject to Executive Order 13045 (62 FR 19885, April 23, 1997); • Is not a significant regulatory action subject to Executive Order 13211 (66 FR 28355, May 22, 2001); • Is not subject to requirements of Section 12(d) of the National Technology Transfer and Advancement Act of 1995 (15 U.S.C. 272 note) because application of those requirements would be inconsistent with the CAA; and • Does not provide EPA with the discretionary authority to address, as appropriate, disproportionate human health or environmental effects, using practicable and legally permissible methods, under Executive Order 12898 (59 FR 7629, February 16, 1994). In addition, this proposed rule approving Maryland’s Regional Haze Plan does not have tribal implications as specified by Executive Order 13175 (65 FR 67249, November 9, 2000), because the SIP is not approved to apply in Indian country located in the state, and EPA notes that it will not impose substantial direct costs on tribal governments or preempt tribal law. List of Subjects in 40 CFR Part 52 Environmental protection, Air pollution control, Nitrogen dioxide, Particulate matter, Reporting and recordkeeping requirements, Sulfur oxides, Visibility, Volatile organic compounds. Authority: 42 U.S.C. 7401 et seq. Dated: February 15, 2012. W.C. Early, Acting, Regional Administrator, Region III. [FR Doc. 2012–4663 Filed 2–27–12; 8:45 am] BILLING CODE 6560–50–P ENVIRONMENTAL PROTECTION AGENCY 40 CFR Part 52 [EPA–R06–OAR–2008–0510; FRL–9640–6] mstockstill on DSK4VPTVN1PROD with PROPOSALS Approval and Promulgation of Implementation Plans; Louisiana; Regional Haze State Implementation Plan Environmental Protection Agency (EPA). ACTION: Proposed rule. AGENCY: The EPA is proposing a partial disapproval and a partial limited approval of a revision to the Louisiana State Implementation Plan (SIP) submitted by the State of Louisiana SUMMARY: VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 through the Louisiana Department of Environmental Quality (LDEQ) on June 13, 2008, that addresses regional haze (RH) for the first implementation period. This revision was submitted to address the requirements of the Clean Air Act (CAA or Act) and the EPA’s rules that require states to prevent any future and remedy any existing man-made impairment of visibility in mandatory Class I areas caused by emissions of air pollutants from numerous sources located over a wide geographic area (also referred to as the ‘‘regional haze program’’). States are required to assure reasonable progress toward the national goal of achieving natural visibility conditions in Class I areas. In a separate action, the EPA has previously proposed a limited disapproval of the Louisiana regional haze SIP because of deficiencies in the state’s regional haze SIP submittal arising from the remand by the U.S. Court of Appeals for the District of Columbia (DC Circuit) to the EPA of the Clean Air Interstate Rule (CAIR). In today’s action, the EPA is proposing a partial disapproval because of deficiencies in Louisiana’s regional haze SIP submittal that go beyond the issues addressed in the EPA’s proposed limited disapproval. The EPA is also proposing a partial limited approval of those elements of this SIP revision not addressed by our partial disapproval. The partial limited approval of the RH requirements for Louisiana is based on the conclusion that the revisions, as a whole, strengthen the Louisiana SIP. This action is being taken under section 110 and part C of the CAA. DATES: Comments must be received on or before March 29, 2012. ADDRESSES: Submit your comments, identified by Docket No. EPA–R06– OAR–2008–0510, by one of the following methods: • Federal e-Rulemaking Portal: https://www.regulations.gov. Follow the online instructions for submitting comments. • Email: R6AIR_LAHAZE@epa.gov. • Mail: Mr. Guy Donaldson, Chief, Air Planning Section (6PD–L), Environmental Protection Agency, 1445 Ross Avenue, Suite 1200, Dallas, Texas 75202–2733. • Hand or Courier Delivery: Mr. Guy Donaldson, Chief, Air Planning Section (6PD–L), Environmental Protection Agency, 1445 Ross Avenue, Suite 1200, Dallas, Texas 75202–2733. Such deliveries are accepted only between the hours of 8 a.m. and 4 p.m. weekdays, and not on legal holidays. Special arrangements should be made for deliveries of boxed information. PO 00000 Frm 00062 Fmt 4702 Sfmt 4702 11839 • Fax: Mr. Guy Donaldson, Chief, Air Planning Section (6PD–L), at fax number 214–665–6762. Instructions: Direct your comments to Docket No. EPA–R06–OAR–2008–0510. Our policy is that all comments received will be included in the public docket without change and may be made available online at www.regulations.gov, including any personal information provided, unless the comment includes information claimed to be Confidential Business Information (CBI) or other information whose disclosure is restricted by statute. Do not submit information that you consider to be CBI or otherwise protected through www.regulations.gov or email. The www.regulations.gov Web site is an ‘‘anonymous access’’ system, which means we will not know your identity or contact information unless you provide it in the body of your comment. If you send an email comment directly to us without going through www.regulations.gov your email address will be automatically captured and included as part of the comment that is placed in the public docket and made available on the Internet. If you submit an electronic comment, we recommend that you include your name and other contact information in the body of your comment and with any disk or CD–ROM you submit. If we cannot read your comment due to technical difficulties and cannot contact you for clarification, we may not be able to consider your comment. Electronic files should avoid the use of special characters, any form of encryption, and be free of any defects or viruses. Docket: All documents in the docket are listed in the www.regulations.gov index. Although listed in the index, some information is not publicly available, e.g., CBI or other information whose disclosure is restricted by statute. Certain other material, such as copyrighted material, will be publicly available only in hard copy. Publicly available docket materials are available either electronically in www.regulations.gov or in hard copy at the Air Planning Section (6PD–L), Environmental Protection Agency, 1445 Ross Avenue, Suite 700, Dallas, Texas 75202–2733. The file will be made available by appointment for public inspection in the Region 6 FOIA Review Room between the hours of 8:30 a.m. and 4:30 p.m. weekdays except for legal holidays. Contact the person listed in the FOR FURTHER INFORMATION CONTACT paragraph below or Mr. Bill Deese at 214–665–7253 to make an appointment. If possible, please make the appointment at least two working days in advance of your visit. There will be E:\FR\FM\28FEP1.SGM 28FEP1 11840 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules a fee of 15 cents per page for making photocopies of documents. On the day of the visit, please check in at our Region 6 reception area at 1445 Ross Avenue, Suite 700, Dallas, Texas. The State submittal is also available for public inspection during official business hours, by appointment, at the Louisiana Department of Environmental Quality, 602 N. Fifth Street in Baton Rouge, Louisiana. FOR FURTHER INFORMATION CONTACT: Ms. Ellen Belk, Air Planning Section (6PD– L), Environmental Protection Agency, Region 6, 1445 Ross Avenue, Suite 700, Dallas, Texas 75202–2733, telephone 214–665–2164; fax number 214–665– 6762; email address belk.ellen@epa.gov. SUPPLEMENTARY INFORMATION: Throughout this document wherever ‘‘we,’’ ‘‘us,’’ or ‘‘our’’ is used, we mean the EPA. mstockstill on DSK4VPTVN1PROD with PROPOSALS Table of Content I. Executive Summary of Proposed Action II. What is the background for our proposed actions? A. The Regional Haze Problem B. Requirements of the CAA and EPA’s Regional Haze Rule (RHR) C. Roles of Agencies in Addressing Regional Haze III. What are the requirements for regional haze sips? A. The CAA and the Regional Haze Rule B. Determination of Baseline, Natural, and Current Visibility Conditions C. Determination of Reasonable Progress Goals D. Best Available Retrofit Technology (BART) E. Long-Term Strategy (LTS) F. Coordinating Regional Haze and Reasonably Attributable Visibility Impairment (RAVI) G. Monitoring Strategy and Other SIP Requirements H. Coordination With Federal Land Managers IV. Our Analysis of Louisiana’s Regional Haze SIP A. Identification of Affected Class I Areas B. Determination of Baseline, Natural and Current Visibility Conditions 1. Estimating Natural Visibility Conditions 2. Estimating Baseline Visibility Conditions 3. Natural Visibility Impairment 4. Uniform Rate of Progress C. Evaluation of Louisiana’s Reasonable Progress Goals D. Evaluation of Louisiana’s BART Analyses 1. Identification of BART-Eligible Sources 2. Identification of Sources Subject to BART 3. BART Determinations a. ConocoPhillips b. Rhodia c. Sid Richardson Carbon Company E. Long-Term Strategy 1. Emissions Inventories a. Louisiana’s 2002 Emission Inventory VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 b. Louisiana’s 2018 Emission Inventory 2. Visibility Projection Modeling 3. Sources of Visibility Impairment a. Sources of Visibility Impairment in the Breton Class I Area b. Louisiana’s Contribution to Visibility Impairment in Class I Areas Outside the State 4. Consultation for Other States Class I Areas 5. Mandatory Long-Term Strategy Factors a. Reductions Due to Ongoing Air Pollution Programs b. Measures To Mitigate the Impacts of Construction Activities c. Emissions Limitations and Schedules of Compliance d. Source Retirement and Replacement Schedules e. Agricultural and Forestry Smoke Management Techniques f. Enforceability of Emissions Limitations and Control Measures g. Anticipated Net Effect on Visibility Due to Projected Changes F. Coordination of RAVI and Regional Haze Requirements G. Monitoring Strategy and Other SIP Requirements H. Coordination With Federal Land Managers I. Periodic SIP Revisions and Five-Year Progress Reports J. Determination of the Adequacy of Existing Implementation Plan V. Proposed Action VI. Statutory and Executive Order Reviews I. Executive Summary of Proposed Action The EPA is proposing a partial limited approval of Louisiana’s June 13, 2008, SIP revision addressing regional haze (RH) under CAA sections 301(a) and 110(k)(3) because certain provisions of the revision strengthen the Louisiana (LA) SIP. The EPA is also proposing a partial disapproval of the LA RH SIP submittal because the submittal includes several deficient provisions. The deficiencies identified in today’s action go beyond those identified in the limited disapproval proposed on December 30, 2011 (76 FR 82219). Certain elements of the State’s Best Available Retrofit Technology (BART) evaluations and determinations are not fully adequate to meet the federal requirements. Additionally, as a result of the deficiencies related to BART, the Long-Term Strategy (LTS) and Reasonable Progress Goals (RPGs) are not fully adequate to meet federal requirements. Finally, because visibility impacts from smoke are significant in Louisiana, we propose that Louisiana should finalize its Smoke Management Plan (SMP). The portions of the revision proposed for limited approval nevertheless represent an improvement over the current SIP, and make considerable progress in fulfilling the PO 00000 Frm 00063 Fmt 4702 Sfmt 4702 applicable CAA RH program requirements. This proposed rulemaking and the accompanying Technical Support Document (TSD) explain the basis for EPA’s proposed partial limited approval and partial disapproval. Under CAA sections 301(a) and 110(k)(6) and EPA’s long-standing guidance,1 a limited approval results in approval of portions of the SIP submittal, even though they are deficient and prevent EPA from granting a full approval of the SIP revision. In an earlier proposed action, EPA has proposed a limited disapproval of Louisiana’s RH SIP revision for not meeting all the applicable requirements of the CAA (76 FR 82219). In today’s proposed action, having concluded based on a careful review of the LA RH SIP revision that there are deficiencies in the SIP beyond those identified in the proposed limited disapproval of the LA RH SIP, we are proposing a partial disapproval of those additional deficiencies and a partial limited approval of the rest of the LA RH SIP. The partial limited approval proposes to give limited approval to those portions of the SIP that are not being disapproved in today’s action for their benefit in strengthening the SIP even though they do not fully meet regional haze requirements. Specifically, we are proposing to find that the following elements of the submittal fully satisfy federal requirements insofar as the elements do not rely on the sulfur dioxide (SO2) reductions from CAIR: The State’s identification of affected Class I areas; the establishment of baseline, natural and current visibility conditions, including the Uniform Rate of Progress (URP); coordination of reasonably attributable visibility impairment (RAVI) and RH requirements; the RH monitoring strategy and other SIP requirements under 40 CFR 51.308(d)(4); the State’s commitment to submit periodic RH SIP revisions and periodic progress reports describing progress towards the State’s RPGs; the State’s commitment to make a determination of the adequacy of the existing SIP at the time a progress report is submitted; and the State’s coordination with Federal Land Managers (FLMs). We are proposing to find that Louisiana’s RPGs meet some federal 1 Processing of State Implementation Plan (SIP) Revisions, EPA Memorandum from John Calcagni, Director, Air Quality Management Division, OAQPS, to Air Division Directors, EPA Regional Offices I–X (1992 Calcagni Memorandum) located at https://www.epa.gov/ttn/caaa/t1/memoranda/ siproc.pdf. E:\FR\FM\28FEP1.SGM 28FEP1 mstockstill on DSK4VPTVN1PROD with PROPOSALS Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules requirements, but also contain some deficiencies. We are proposing to find that the State’s RPGs are deficient given our proposed finding that certain of Louisiana’s BART determinations are not fully approvable. In general, the State followed the requirements of 40 CFR 51.308(d)(1), but these goals do not reflect appropriate emissions reductions from BART. For LTS, we are proposing to find that the State’s LTS satisfies many of the requirements under 40 CFR 51.308(d)(3); however, we are proposing to find that the submitted LTS is deficient because a portion of it relies on BART determinations that we are proposing to disapprove. Also, because visibility impacts from smoke are significant in Louisiana, we propose to find that that Louisiana should finalize its SMP. For the BART analyses for sources other than electric generating units (EGUs), we are proposing to find that the State’s identification of subject-toBART sources meets federal requirements in part, but that the state should have identified Mosaic Fertilizer as being subject to BART and made a BART determination for the source. This is discussed in more detail in section IV.D.2 of this action. We are also proposing to find that LDEQ’s BART determinations for Conoco Phillips, Rhodia, and Sid Richardson Carbon Black are not fully approvable. These BART determinations are discussed in more detail in section IV.D.3 of this action. As noted above, in an earlier proposed action, EPA proposed a limited disapproval of the Louisiana regional haze SIP. EPA’s proposed limited disapproval is based on deficiencies in the state’s regional haze SIP submittal arising from the state’s reliance on CAIR to meet certain regional haze requirements. In the same December 30, 2011 notice, EPA proposed to find that the Transport Rule,2 a rule issued in 2011 to address the interstate transport of NOX and SO2 in the eastern United States would, like CAIR, provide for greater reasonable progress towards the national goal than would BART. 76 FR 82219. Based on this proposed finding, EPA also proposed to revise the Regional Haze Rule (RHR) to allow states to substitute participation in the trading programs under the Transport Rule for sourcespecific BART. This proposed revision applies only to EGUs in the states in the Transport Rule region and only to the pollutants subject to the requirements of the Transport Rule. States such as 2 76 FR 48208 (August 8, 2011). VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 Louisiana that are subject to the requirements of the Transport Rule trading program only for nitrogen oxides (NOX) must still address BART for EGUs for SO2 and other visibility impairing pollutants. See, 76 FR at 82224. Consequently, while we proposed on December 30, 2011 to issue a federal implementation plan (FIP) to address the deficiencies in Louisiana’s SIP associated with the BART requirements for NOX for EGUs, we did not propose a plan to address the deficiencies associated with the BART requirements for SO2. The docket for this earlier EPA proposed limited disapproval of Louisiana’s regional haze SIP may be found at Docket ID No. EPA–HQ–OAR– 2011–0729. Louisiana also relied on CAIR in assessing the need for emissions reductions from EGUs to ensure reasonable progress. Consequently, Louisiana will have to reconsider whether reductions of SO2 from EGUs, whether subject to BART or not, are appropriate for ensuring reasonable progress. Where a submittal addresses a mandatory requirement of the CAA, we must, within 24 months following a final disapproval, either approve a SIP or promulgate a FIP. CAA section 110(c)(1). At this time, we are not proposing a FIP for the portions of the Louisiana RH SIP we are proposing in this action to find deficient because LDEQ has expressed its intent to revise the Louisiana RH SIP by correcting the deficiencies. We are electing to not propose a FIP at this time in order to provide Louisiana time to correct these deficiencies. However, a final partial disapproval of Louisiana’s RH SIP will start the two-year mandatory FIP clock. If the State submits an approvable rule revision during the FIP clock period, final approval of the rule revision correcting the deficiencies will terminate the FIP clock. II. What is the background for our proposed action? A. The Regional Haze Problem Regional haze is visibility impairment that is produced by a multitude of sources and activities which are located across a broad geographic area and emit fine particulate matter (PM2.5) (e.g., sulfates, nitrates, organic carbon, elemental carbon, and soil dust), and their precursors (e.g., SO2, NOX, and in some cases, ammonia (NH3) and volatile organic compounds (VOCs)). Fine particle precursors react in the atmosphere to form fine particulate matter that impairs visibility by scattering and absorbing light. Visibility PO 00000 Frm 00064 Fmt 4702 Sfmt 4702 11841 impairment reduces the clarity, color, and visible distance that one can see. PM2.5 can also cause serious health effects and mortality in humans and contributes to environmental effects such as acid deposition and eutrophication. Data from the existing visibility monitoring network, the ‘‘Interagency Monitoring of Protected Visual Environments’’ (IMPROVE) monitoring network, show that visibility impairment caused by air pollution occurs virtually all the time at most national park and wilderness areas. The average visual range 3 in many Class I areas 4 (i.e., national parks and memorial parks, wilderness areas, and international parks meeting certain size criteria) in the western United States is 100–150 kilometers, or about one-half to two-thirds of the visual range that would exist without anthropogenic air pollution. In most of the eastern Class I areas of the United States, the average visual range is less than 30 kilometers, or about one-fifth of the visual range that would exist under estimated natural conditions. See, 64 FR 35715, July 1, 1999. B. Requirements of the CAA and EPA’s Regional Haze Rule (RHR) In section 169A of the 1977 Amendments to the CAA, Congress created a program for protecting visibility in the nation’s national parks and wilderness areas. This section of the CAA establishes as a national goal the ‘‘prevention of any future, and the remedying of any existing, impairment of visibility in mandatory Class I Federal areas which impairment results from manmade air pollution.’’ On December 2, 1980, the EPA promulgated regulations to address visibility impairment in Class I areas that is ‘‘reasonably attributable’’ to a single 3 Visual range is the greatest distance, in kilometers or miles, at which a dark object can be viewed against the sky. 4 Areas designated as mandatory Class I Federal areas consist of national parks exceeding 6,000 acres, wilderness areas and national memorial parks exceeding 5,000 acres, and all international parks that were in existence on August 7, 1977. See, 42 U.S.C. 7472(a). In accordance with section 169A of the CAA, EPA, in consultation with the Department of Interior, promulgated a list of 156 areas where visibility is identified as an important value. See, 44 FR 69122, November 30, 1979. The extent of a mandatory Class I area includes subsequent changes in boundaries, such as park expansions. See, 42 U.S.C. 7472(a). Although states and tribes may designate as Class I additional areas which they consider to have visibility as an important value, the requirements of the visibility program set forth in section 169A of the CAA apply only to ‘‘mandatory Class I Federal areas.’’ Each mandatory Class I Federal area is the responsibility of a ‘‘Federal Land Manager.’’ See, 42 U.S.C. 7602(i). When the term ‘‘Class I area’’ is used in this action, it means a ‘‘mandatory Class I Federal area.’’ E:\FR\FM\28FEP1.SGM 28FEP1 11842 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules mstockstill on DSK4VPTVN1PROD with PROPOSALS source or small group of sources, i.e., ‘‘reasonably attributable visibility impairment.’’ 45 FR 80084. These regulations represented the first phase in addressing visibility impairment. The EPA deferred action on regional haze that emanates from a variety of sources until monitoring, modeling, and scientific knowledge about the relationships between pollutants and visibility impairment were improved. Congress added section 169B to the CAA in 1990 to address regional haze issues. The EPA promulgated a rule to address regional haze on July 1, 1999 (64 FR 35713), the RHR. The RHR revised the existing visibility regulations to integrate into the regulation provisions addressing regional haze impairment and established a comprehensive visibility protection program for Class I areas. The requirements for regional haze, found at 40 CFR 51.308 and 51.309, are included in the EPA’s visibility protection regulations at 40 CFR 51.300–309. Some of the main elements of the regional haze requirements are summarized in section III of this proposal. The requirement to submit a regional haze SIP applies to all 50 states, the District of Columbia, and the Virgin Islands.5 40 CFR 51.308(b) requires states to submit the first implementation plan addressing regional haze visibility impairment no later than December 17, 2007. C. Roles of Agencies in Addressing Regional Haze Successful implementation of the RH program will require long-term regional coordination among states, tribal governments and various federal agencies. As noted above, pollution affecting the air quality in Class I areas can be transported over long distances, even hundreds of kilometers (km). Therefore, to address effectively the problem of visibility impairment in Class I areas, states need to develop strategies in coordination with one another, taking into account the effect of emissions from one jurisdiction on the air quality in another. Because the pollutants that lead to RH can originate from sources located across broad geographic areas, we have encouraged the states and tribes across the United States (U.S.) to address visibility impairment from a regional perspective. Five regional planning organizations (RPOs) were developed to 5 Albuquerque/Bernalillo County in New Mexico must also submit a regional haze SIP to completely satisfy the requirements of section 110(a)(2)(D) of the CAA for the entire State of New Mexico under the New Mexico Air Quality Control Act (section 74–2–4). VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 address RH and related issues. The RPOs first evaluated technical information to better understand how their states and tribes impact Class I areas across the country, and then pursued the development of regional strategies to reduce emissions of particulate matter and other pollutants leading to RH. The Central Regional Air Planning Association (CENRAP) is an organization of states, tribes, federal agencies and other interested parties that identifies RH and visibility issues and develops strategies to address them. The CENRAP is one of the five RPOs across the U.S. and includes the states and tribal areas of Nebraska, Kansas, Oklahoma, Texas, Minnesota, Iowa, Missouri, Arkansas, and Louisiana. III. What are the requirements for regional haze SIPs? The following is a summary and basic explanation of the regulations covered under the RHR. See, 40 CFR 51.308 for a complete listing of the regulations under which this SIP is being evaluated. A. The CAA and the Regional Haze Rule RH SIPs must assure reasonable progress towards the national goal of achieving natural visibility conditions in Class I areas. Section 169A of the CAA and our implementing regulations require states to establish long-term strategies for making reasonable progress toward meeting this goal. Implementation plans must also give specific attention to certain stationary sources that were in existence on August 7, 1977, but were not in operation before August 7, 1962, and require these sources, where appropriate, to install BART controls for the purpose of eliminating or reducing visibility impairment. The specific RH SIP requirements are discussed in further detail in this section. B. Determination of Baseline, Natural, and Current Visibility Conditions The RHR establishes the deciview (dv) as the principal metric for measuring visibility. See, 70 FR 39104. This visibility metric expresses uniform changes in the degree of haze in terms of common increments across the entire range of visibility conditions, from pristine to extremely hazy conditions. Visibility is sometimes expressed in terms of the visual range, which is the greatest distance, in kilometers or miles, at which a dark object can just be distinguished against the sky. The deciview is a useful measure for tracking progress in improving visibility, because each deciview change is an equal incremental change in PO 00000 Frm 00065 Fmt 4702 Sfmt 4702 visibility perceived by the human eye. Most people can detect a change in visibility of one deciview.6 The deciview is used in expressing RPGs (which are interim visibility goals towards meeting the national visibility goal), defining baseline, current, and natural conditions, and tracking changes in visibility. The RH SIPs must contain measures that ensure ‘‘reasonable progress’’ toward the national goal of preventing and remedying visibility impairment in Class I areas caused by man-made air pollution by reducing anthropogenic emissions that cause RH. The national goal is a return to natural conditions, i.e., man-made sources of air pollution would no longer impair visibility in Class I areas. To track changes in visibility over time at each of the 156 Class I areas covered by the visibility program (40 CFR 81.401–437), and as part of the process for determining reasonable progress, states must calculate the degree of existing visibility impairment at each Class I area at the time of each RH SIP submittal and periodically review progress every five years, midway through each 10-year implementation period. To do this, the RHR requires states to determine the degree of impairment (in deciviews) for the average of the 20 percent least impaired (‘‘best’’) and 20 percent most impaired (‘‘worst’’) visibility days over a specified time period at each of their Class I areas. In addition, states must also develop an estimate of natural visibility conditions for the purpose of comparing progress toward the national goal. Natural visibility is determined by estimating the natural concentrations of pollutants that cause visibility impairment and then calculating total light extinction based on those estimates. We have provided guidance to states regarding how to calculate baseline, natural and current visibility conditions.7 For the first RH SIPs that were due by December 17, 2007, ‘‘baseline visibility conditions’’ were the starting points for assessing ‘‘current’’ visibility impairment. Baseline visibility conditions represent the degree of 6 The preamble to the RHR provides additional details about the deciview. 64 FR 35714, 35725 (July 1, 1999). 7 Guidance for Estimating Natural Visibility Conditions Under the Regional Haze Rule, September 2003, EPA–454/B–03–005, available at https://www.epa.gov/ttncaaa1/t1/memoranda/rh_ envcurhr_gd.pdf, (hereinafter referred to as ‘‘our 2003 Natural Visibility Guidance’’); and Guidance for Tracking Progress Under the Regional Haze Rule, (EPA–454/B–03–004, September 2003, available at https://www.epa.gov/ttncaaa1/t1/ memoranda/rh_tpurhr_gd.pdf, (hereinafter referred to as our ‘‘2003 Tracking Progress Guidance’’). E:\FR\FM\28FEP1.SGM 28FEP1 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules mstockstill on DSK4VPTVN1PROD with PROPOSALS visibility impairment for the 20 percent least impaired days and 20 percent most impaired days for each calendar year from 2000 to 2004. Using monitoring data for 2000 through 2004, states are required to calculate the average degree of visibility impairment for each Class I area, based on the average of annual values over the five-year period. The comparison of initial baseline visibility conditions to natural visibility conditions indicates the amount of improvement necessary to attain natural visibility, while the future comparison of baseline conditions to the then current conditions will indicate the amount of progress made. In general, the 2000—2004 baseline period is considered the time from which improvement in visibility is measured. C. Determination of Reasonable Progress Goals The vehicle for ensuring continuing progress towards achieving the natural visibility goal is the submission of a series of RH SIPs from the states that establish two RPGs (i.e., two distinct goals, one for the ‘‘best’’ and one for the ‘‘worst’’ days) for every Class I area for each (approximately) 10-year implementation period. See, 70 FR 3915; See also 64 FR 35714. The RHR does not mandate specific milestones or rates of progress, but instead calls for states to establish goals that provide for ‘‘reasonable progress’’ toward achieving natural (i.e., ‘‘background’’) visibility conditions. In setting RPGs, states must provide for an improvement in visibility for the most impaired days over the (approximately) 10-year period of the SIP, and ensure no degradation in visibility for the least impaired days over the same period. Id. States have significant discretion in establishing RPGs, but are required to consider the following factors established in section 169A of the CAA and in our RHR at 40 CFR 51.308(d)(1)(i)(A): (1) The costs of compliance; (2) the time necessary for compliance; (3) the energy and non-air quality environmental impacts of compliance; and (4) the remaining useful life of any potentially affected sources. States must demonstrate in their SIPs how these factors are considered when selecting the RPGs for the best and worst days for each applicable Class I area. States have considerable flexibility in how they take these factors into consideration, as noted in our Reasonable Progress Guidance.8 In setting the RPGs, states 8 Guidance for Setting Reasonable Progress Goals under the Regional Haze Program, June 1, 2007, memorandum from William L. Wehrum, Acting VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 must also consider the rate of progress needed to reach natural visibility conditions by 2064 (the URP) and the emission reduction measures needed to achieve that rate of progress over the 10-year period of the SIP. Uniform progress towards achievement of natural conditions by the year 2064 represents a rate of progress, which states are to use for analytical comparison to the amount of progress they expect to achieve. In setting RPGs, each state with one or more Class I areas (‘‘Class I State’’) must also consult with potentially ‘‘contributing states,’’ i.e., other nearby states with emission sources that may be affecting visibility impairment at the Class I State’s areas. 40 CFR 51.308(d)(1)(iv). D. Best Available Retrofit Technology (BART) Section 169A of the CAA directs states to evaluate the use of retrofit controls at certain larger, often uncontrolled, older stationary sources with the potential to emit greater than 250 tons per year (tpy) or more of any visibility impairing pollutant in order to address visibility impacts from these sources. Specifically, section 169A(b)(2)(A) of the Act requires states to revise their SIPs to contain such measures as may be necessary to make reasonable progress towards the natural visibility goal, including a requirement that certain categories of existing major stationary sources 9 built between 1962 and 1977 procure, install, and operate the ‘‘Best Available Retrofit Technology’’, as determined by the state or us in the case of a plan promulgated under section 110(c) of the CAA. Under the RHR, states are directed to conduct BART determinations for such ‘‘BARTeligible’’ sources that may be anticipated to cause or contribute to any visibility impairment in a Class I area. Rather than requiring source-specific BART controls, states also have the flexibility to adopt an emissions trading program or other alternative program as long as the alternative provides greater reasonable progress towards improving visibility than BART. We promulgated regulations addressing RH in 1999, 64 FR 35714 (July 1, 1999), codified at 40 CFR part 51, subpart P.10 These regulations Assistant Administrator for Air and Radiation, to EPA Regional Administrators, EPA Regions 1–10 (pp. 4–2, 5–1). 9 The set of ‘‘major stationary sources’’ potentially subject to BART are listed in CAA section 169A(g)(7). 10 In American Corn Growers Ass’n v. EPA, 291 F.3d 1 (D.C. Cir. 2002), the U.S Court of Appeals for the District of Columbia Circuit issued a ruling vacating and remanding the BART provisions of the PO 00000 Frm 00066 Fmt 4702 Sfmt 4702 11843 require all states to submit implementation plans that, among other measures, contain either emission limits representing BART for certain sources constructed between 1962 and 1977, or alternative measures that provide for greater reasonable progress than BART. 40 CFR 51.308(e). On July 6, 2005, we published the Guidelines for BART Determinations Under the Regional Haze Rule at Appendix Y to 40 CFR Part 51 (‘‘BART Guidelines’’) to assist states in determining which of their sources should be subject to the BART requirements and in determining appropriate emission limits for each applicable source. 70 FR 39104. In making a BART determination for a fossil fuel-fired electric generating plant with a total generating capacity in excess of 750 megawatts (MW), a state must use the approach set forth in the BART Guidelines. A state is encouraged, but not required, to follow the BART Guidelines in making BART determinations for other types of sources; however, all subject to BART sources are required to comply with the five BART factors (or steps) (40 CFR 51.308(e)(1)(ii)(A)). The process of establishing BART emission limitations can be logically broken down into three steps: First, states identify those sources that meet the definition of ‘‘BART-eligible source’’ set forth in 40 CFR 51.301; 11 second, states determine whether each identified source ‘‘emits any air pollutant which may reasonably be anticipated to cause or contribute to any impairment of visibility in any such area’’ (a source that fits this description is ‘‘subject to BART,’’) and; third, for each source subject to BART, states then identify the appropriate type and the level of control for reducing emissions. States must address all visibilityimpairing pollutants emitted by a source in the BART determination process. The most significant visibility impairing pollutants are SO2, NOX, and PM. We have stated that states should use their best judgment in determining whether VOC or ammonia compounds impair visibility in Class I areas. Under the BART Guidelines, states may select an exemption threshold value for their BART modeling, below which a BART-eligible source would regional haze rule. In 2005, we issued BART guidelines to address the court’s ruling in that case. See 70 FR 39104 (July 6, 2005). 11 BART-eligible sources are those sources that have the potential to emit 250 tons or more of a visibility-impairing air pollutant, were put in place between August 7, 1962 and August 7, 1977, and whose operations fall within one or more of 26 specifically listed source categories. E:\FR\FM\28FEP1.SGM 28FEP1 mstockstill on DSK4VPTVN1PROD with PROPOSALS 11844 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules not be expected to cause or contribute to visibility impairment in any Class I area. The state must document this exemption threshold value in the SIP and must state the basis for its selection of that value. States have three options for exempting a BART-eligible source from the BART requirements, including dispersion modeling demonstrating that the source cannot reasonably be anticipated to cause or contribute to visibility impairment in a Class I area, use of model plants to exempt sources with common characteristics, and cumulative modeling to show that no sources in Louisiana are subject to BART. Any source with emissions that model above the threshold value would be subject to a BART determination review. The BART Guidelines acknowledge varying circumstances affecting different Class I areas. States should consider the number of emission sources affecting the Class I areas at issue and the magnitude of the individual sources’ impacts. Any exemption threshold set by the state should not be higher than 0.5 dv. See also, 40 CFR part 51, Appendix Y, section III.A.1. In their SIPs, states must identify potential BART sources, described as ‘‘BART-eligible sources’’ in the RHR, and document their BART control determination analyses. The term ‘‘BART-eligible source’’ used in the BART Guidelines means the collection of individual emission units at a facility that together comprises the BARTeligible source. In making BART determinations, section 169A(g)(2) of the CAA requires that states consider the following factors: (1) The costs of compliance; (2) the energy and non-air quality environmental impacts of compliance; (3) any existing pollution control technology in use at the source; (4) the remaining useful life of the source; and (5) the degree of improvement in visibility which may reasonably be anticipated to result from the use of such technology. States are free to determine the weight and significance to be assigned to each factor. See, 40 CFR 51.308(e)(1)(ii). A RH SIP must include sourcespecific BART emission limits and compliance schedules for each source subject to BART (See, CAA section 169A(b)(2), 40 CFR 51.308(e), and 64 FR 35714, 35741). Once a state has made its BART determination, the BART controls must be installed and in operation as expeditiously as practicable, but no later than five years after the date of our approval of the RH SIP. CAA section 169(g)(4) and 40 CFR 51.308(e)(1)(iv). In addition to what is required by the RHR, general SIP requirements mandate that VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 the SIP must also include all regulatory requirements related to monitoring, recordkeeping, and reporting for the BART controls on the source. See, CAA section 110(a). As noted above, the RHR allows states to implement an alternative program in lieu of BART so long as the alternative program can be demonstrated to achieve greater reasonable progress toward the national visibility goal than would BART. Under regulations issued in 2005 revising the RH program, the EPA made just such a demonstration for the CAIR. See, 70 FR 39104 (July 6, 2005). The EPA’s regulations provide that states participating in the CAIR cap-and-trade program under 40 CFR part 96 pursuant to an EPA-approved CAIR SIP or which remain subject to the CAIR FIP in 40 CFR part 97 need not require affected BART-eligible EGUs to install, operate, and maintain BART for emissions of SO2 and NOX. See, 40 CFR 51.308(e)(4). Because the CAIR did not address direct emissions of PM, states were still required to conduct a BART analysis for PM emissions from EGUs subject to BART for that pollutant. The CAIR required controls of both SO2 and NOX in Louisiana. Challenges to the CAIR, however, resulted in the remand of the rule to the EPA. See, North Carolina v. EPA, 550 F.3d 1176 (DC Cir. 2008). The EPA issued the Transport Rule in 2011 to address the interstate transport of NOX and SO2 in the eastern United States. See, 76 FR 48208 (August 8, 2011). On December 30, 2011, the EPA proposed to find that the trading programs in the Transport Rule would achieve greater reasonable progress towards the national goal than would BART in the states in which the Transport Rule applies. 76 FR 82219. Based on this proposed finding, the EPA also proposed to revise the RHR to allow states to substitute participation in the trading programs under the Transport Rule for source-specific BART. The transport rule requires control of NOX during the ozone season in Louisiana. It does not, however, require control of SO2. The EPA has not taken final action on that rule. E. Long-Term Strategy (LTS) Consistent with the requirement in section 169A(b) of the CAA that states include in their RH SIP a 10- to 15-year strategy for making reasonable progress, 40 CFR 51.308(d)(3) of the RHR requires that states include a LTS in their RH SIPs. The LTS is the compilation of all control measures a state will use during the implementation period of the specific SIP submittal to meet any applicable RPGs. The LTS must include ‘‘enforceable emissions limitations, compliance schedules, and other measures as necessary to achieve the reasonable progress goals’’ for all Class I areas within, or affected by emissions from, the state. 40 CFR 51.308(d)(3). When a state’s emissions are reasonably anticipated to cause or contribute to visibility impairment in a Class I area located in another state, the RHR requires the impacted state to coordinate with the contributing states in order to develop coordinated emissions management strategies. 40 CFR 51.308(d)(3)(i). Also, a state with a Class I area impacted by emissions from another state must consult with such contributing state, (id.) and must also demonstrate that it has included in its SIP all measures necessary to obtain its share of emission reductions needed to meet the reasonable progress goals for the Class I area. Id. at (d)(3)(ii). The RPOs have provided forums for significant interstate consultation, but additional consultations between states may be required to sufficiently address interstate visibility issues. This is especially true where two states belong to different RPOs. States should consider all types of anthropogenic sources of visibility impairment in developing their LTS, including stationary, minor, mobile, and area sources. At a minimum, states must describe how each of the following seven factors listed below are taken into account in developing their LTS: (1) Emission reductions due to ongoing air pollution control programs, including measures to address RAVI; (2) measures to mitigate the impacts of construction activities; (3) emissions limitations and schedules for compliance to achieve the RPG; (4) source retirement and replacement schedules; (5) smoke management techniques for agricultural and forestry management purposes including plans as currently exist within the state for these purposes; (6) enforceability of emissions limitations and control measures; and (7) the anticipated net effect on visibility due to projected changes in point, area, and mobile source emissions over the period addressed by the LTS. 40 CFR 51.308(d)(3)(v). F. Coordinating Regional Haze and Reasonably Attributable Visibility Impairment (RAVI) As part of the RHR, we revised 40 CFR 51.306(c) regarding the LTS for RAVI to require that the RAVI plan must provide for a periodic review and SIP revision not less frequently than every three years until the date of submission of the state’s first plan addressing RH visibility impairment, which was due December 17, 2007, in accordance with PO 00000 Frm 00067 Fmt 4702 Sfmt 4702 E:\FR\FM\28FEP1.SGM 28FEP1 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules mstockstill on DSK4VPTVN1PROD with PROPOSALS 40 CFR 51.308(b) and (c). On or before this date, the state must revise its plan to provide for review and revision of a coordinated LTS for addressing RAVI and RH, and the state must submit the first such coordinated LTS with its first RH SIP. Future coordinated LTS and periodic progress reports evaluating progress towards RPGs, must be submitted consistent with the schedule for SIP submission and periodic progress reports set forth in 40 CFR 51.308(f) and (g), respectively. The periodic review of a state’s LTS must report on both RH and RAVI and must be submitted to us as a SIP revision. G. Monitoring Strategy and Other SIP Requirements 40 CFR 51.308(d)(4) of the RHR includes the requirement for a monitoring strategy for measuring, characterizing, and reporting of RH visibility impairment that is representative of all mandatory Class I Federal areas within the state. The strategy must be coordinated with the monitoring strategy required in 40 CFR 51.305 for RAVI. Compliance with this requirement may be met through ‘‘participation’’ in the IMPROVE network, i.e., review and use of monitoring data from the network. The monitoring strategy is due with the first RH SIP, and it must be reviewed every five years. The monitoring strategy must also provide for additional monitoring sites if the IMPROVE network is not sufficient to determine whether RPGs will be met. The SIP must also provide for the following: • Procedures for using monitoring data and other information in a state with mandatory Class I areas to determine the contribution of emissions from within the state to RH visibility impairment at Class I areas both within and outside the state; • Procedures for using monitoring data and other information in a state with no mandatory Class I areas to determine the contribution of emissions from within the state to RH visibility impairment at Class I areas in other states; • Reporting of all visibility monitoring data to the Administrator at least annually for each Class I area in the state, and where possible, in electronic format; • Developing a statewide inventory of emissions of pollutants that are reasonably anticipated to cause or contribute to visibility impairment in any Class I area. The inventory must include emissions for a baseline year, emissions for the most recent year for which data are available, and estimates VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 of future projected emissions. A state must also make a commitment to update the inventory periodically; and • Other elements, including reporting, recordkeeping, and other measures necessary to assess and report on visibility. The RHR requires control strategies to cover an initial implementation period extending to the year 2018, with a comprehensive reassessment and revision of those strategies, as appropriate, every 10 years thereafter. Periodic SIP revisions must meet the core requirements of 40 CFR 51.308(d) with the exception of BART. The requirement to evaluate sources for BART applies only to RH SIPs that address the first implementation period. See, 40 CFR 51.308(f). Facilities subject to BART must continue to comply with the BART provisions of 40 CFR 51.308(e), as noted above. Periodic SIP revisions will assure that the statutory requirement of reasonable progress will continue to be met. H. Coordination With Federal Land Managers The RHR requires that states consult with FLMs before adopting and submitting their SIPs. 40 CFR 51.308(i). States must provide FLMs an opportunity for consultation, in person and at least 60 days prior to holding any public hearing on the SIP. This consultation must include the opportunity for the FLMs to discuss their assessment of impairment of visibility in any Class I area and to offer recommendations on the development of the RPGs and on the development and implementation of strategies to address visibility impairment. Further, a state must include in its SIP a description of how it addressed any comments provided by the FLMs. Finally, a SIP must provide procedures for continuing consultation between the state and FLMs regarding the state’s visibility protection program, including development and review of SIP revisions, five-year progress reports, and the implementation of other programs having the potential to contribute to impairment of visibility in Class I areas. IV. Our Analysis of Louisiana’s Regional Haze SIP A. Identification of Affected Class I Areas As required by 40 CFR 51.308(d) of the RHR, the State of Louisiana has identified one Class I area within its borders, Breton National Wilderness Area (Breton NWA, or Breton). Part of a long chain of barrier islands, the area comprises a small part of the Breton PO 00000 Frm 00068 Fmt 4702 Sfmt 4702 11845 National Wildlife Refuge located in the Breton Sound off the southeast coast of Louisiana. Breton NWA was identified by the LDEQ in its SIP. The FLM for Breton NWA is the U.S. Fish and Wildlife Service (USFWS) a bureau within the U.S. Department of Interior. The Louisiana RH SIP establishes RPGs for Breton and a LTS to achieve these goals within the first RH implementation period ending in 2018. In developing its SIP, the LDEQ also considered whether Louisiana emissions from Louisiana sources impact visibility at Class I areas outside of the state and determined that Louisiana emissions do not cause or contribute to visibility impairment at Class I areas outside the State. Class I areas outside of Louisiana that were considered by the LDEQ included the 14,460 acre Caney Creek Wilderness Area in southwest Arkansas. In other parts of its SIP, the LDEQ does examine the impact of Louisiana’s emissions on the visibility at other Class I areas as well. We propose to find that the LDEQ correctly identified the Breton Class I area in Louisiana, and other Class I areas outside of its borders that may be impacted by emissions from Louisiana sources. B. Determination of Baseline, Natural and Current Visibility Conditions As required by 40 CFR 51.308(d)(2)(i) of the RHR and in accordance with the EPA’s Guidance for Estimating Natural Visibility Conditions Under the Regional Haze Rule, (‘‘Visibility Guidance’’),12 the LDEQ calculated baseline/current13 and natural visibility conditions for Breton NWA on the most impaired and least impaired days, as summarized below (and further described in the TSD). 1. Estimating Natural Visibility Conditions Natural background visibility, as defined in the Visibility Guidance, is estimated by calculating the expected light extinction using default estimates of natural concentrations of fine particle components adjusted by site-specific estimates of humidity. This calculation uses the IMPROVE equation, which is a formula for estimating light extinction from the estimated natural 12 Guidance for Estimating Natural Visibility Conditions Under the Regional Haze Rule, EPA– 454/B–03–005, September 2003. 13 As this is the first RH SIP submittal, the calculated baseline visibility condition and the current visibility condition will be the same. We expect that subsequent RH SIP submittals will reflect different calculated numbers for baseline and current visibility conditions due to the change in conditions. E:\FR\FM\28FEP1.SGM 28FEP1 11846 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules mstockstill on DSK4VPTVN1PROD with PROPOSALS concentrations of fine particle components (or from components measured by the IMPROVE monitors). As documented in the Visibility Guidance, the EPA allows states to use ‘‘refined’’ or alternative approaches to the Visibility Guidance to estimate the values that characterize the natural visibility conditions of Class I areas. One alternative approach is to develop and justify the use of alternative estimates of natural concentrations of fine particle components. Another alternative is to use the ‘‘new IMPROVE equation’’ that was adopted for use by the IMPROVE Steering Committee in December 2005.14 The purpose of this refinement to the ‘‘old IMPROVE equation’’ is to provide more accurate estimates of the various factors that affect the calculation of light extinction. The LDEQ opted to use the new IMPROVE equation to calculate the ‘‘refined’’ natural visibility conditions. For Breton NWA, the LDEQ used the new IMPROVE equation to calculate the ‘‘refined’’ natural visibility value for the 20 percent worst days to be 11.93 deciviews and for the 20 percent best days to be 4.25 deciviews. We reviewed the LDEQ’s estimates of the natural visibility conditions for Breton NWA and are proposing to find them acceptable using the new IMPROVE equation. The new IMPROVE equation takes into account the most recent review of the science 15 and it accounts for the 14 The IMPROVE program is a cooperative measurement effort governed by a steering committee composed of representatives from Federal agencies (including the EPA and FLMs) and RPOs. The IMPROVE monitoring program was established in 1985 to aid the creation of Federal and State implementation plans for the protection of visibility in Class I areas. One of the objectives of IMPROVE is to identify chemical species and emission sources responsible for existing anthropogenic visibility impairment. The IMPROVE program has also been a key participant in visibility-related research, including the advancement of monitoring instrumentation, analysis techniques, visibility modeling, policy formulation and source attribution field studies. 15 The science behind the revised IMPROVE equation is discussed in Chapter 5 and Appendix B of the LDEQ’s TSD for the Louisiana RH SIP and in numerous published papers. See for example: Hand, J.L., and Malm, W.C., 2006, Review of the IMPROVE Equation for Estimating Ambient Light Extinction Coefficients—Final Report. March 2006. Prepared for Interagency Monitoring of Protected Visual Environments (IMPROVE), Colorado State University, Cooperative Institute for Research in the Atmosphere, Fort Collins, Colorado, available at https://vista.cira.colostate.edu/improve/ publications/GrayLit/016_IMPROVEeqReview/ IMPROVEeqReview.htm and Pitchford, Marc., 2006, Natural Haze Levels II: Application of the New IMPROVE Algorithm to Natural Species Concentrations Estimates. Final Report of the Natural Haze Levels II Committee to the RPO Monitoring/Data Analysis Workgroup. September 2006, available at https://vista.cira.colostate.edu/ VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 effect of particle size distribution on light extinction efficiency of sulfate (SO4), nitrate (NO3), and organic carbon. It also adjusts the mass multiplier for organic carbon (particulate organic matter) by increasing it from 1.4 to 1.8. New terms are added to the equation to account for light extinction by sea salt and light absorption by gaseous nitrogen dioxide. Site-specific values are used for Rayleigh scattering (scattering of light due to atmospheric gases) to account for the site-specific effects of elevation and temperature. Separate relative humidity enhancement factors are used for small and large size distributions of ammonium sulfate and ammonium nitrate and for sea salt. The terms for the remaining contributors, elemental carbon (light-absorbing carbon), fine soil, and coarse mass terms, do not change between the original and new IMPROVE equations. 2. Estimating Baseline Visibility Conditions As required by 40 CFR 51.308(d)(2)(i) of the RHR and in accordance with the Visibility Guidance, the LDEQ calculated baseline visibility conditions for Breton NWA. The baseline condition calculation begins with the calculation of light extinction, using the IMPROVE equation. The IMPROVE equation sums the light extinction16 resulting from individual pollutants, such as sulfates and nitrates. As with the natural visibility conditions calculation, the LDEQ chose to use the new IMPROVE equation. The period for establishing baseline visibility conditions is 2000–2004, and baseline conditions must be calculated using available monitoring data. 40 CFR 51.308(d)(2). The Breton IMPROVE monitor did not meet the data capture requirements of the RHR for the 2000– 2004 monitoring period; however, data from a nearby monitoring site, the Gulfport SEARCH site, was used to supplement the Breton monitoring data. We found the use of this data to be acceptable. The Breton monitor was subsequently destroyed in 2005 by Hurricane Katrina and since replaced and relocated. The LDEQ calculated the baseline conditions at the Breton Class I area as 25.73 deciviews on the 20 percent worst days, and 13.12 deciviews on the 20 percent best days. We have reviewed the LDEQ’s estimation of baseline visibility conditions at Breton improve/Publications/GrayLit/029_NaturalCondII/ naturalhazelevelsIIreport.ppt. 16 The amount of light lost as it travels over one million meters. The haze index, in units of deciviews (dv), is calculated directly from the total light extinction, bext expressed in inverse megameters (Mm¥1), as follows: HI = 10 ln(bext/10). PO 00000 Frm 00069 Fmt 4702 Sfmt 4702 and are proposing to find these estimates acceptable. 3. Natural Visibility Impairment To address 40 CFR 51.308(d)(2)(iv)(A), the LDEQ also calculated the number of deciviews by which baseline conditions exceed natural visibility conditions for the best and worst days at Breton NWA. For the 20 percent worst days, the LDEQ calculated the number of deciviews by which baseline conditions exceed natural visibility conditions to be 13.80 dv (baseline of 25.73 dv, minus natural conditions of 11.93 dv). For the 20 percent best days at Breton, the baseline conditions exceed natural visibility conditions by 8.87 dv (baseline of 13.12 dv, minus natural conditions of 4.25 dv). We have reviewed the LDEQ’s estimates of the natural visibility impairment at Breton NWA and are proposing to find these estimates acceptable. 4. Uniform Rate of Progress In setting the RPGs, the LDEQ analyzed and determined the URP needed to reach natural visibility conditions by the year 2064. In so doing, the LDEQ compared the baseline visibility conditions to the natural visibility conditions in Breton NWA and determined the URP needed in order to attain natural visibility conditions by 2064. The LDEQ constructed the URP consistent with the requirements of the RHR and our 2003 Tracking Progress Guidance by plotting a straight graphical line from the baseline level of visibility impairment for 2000–2004 to the level of visibility conditions representing no anthropogenic impairment in 2064 for Breton NWA. Using a baseline visibility value of 25.73 dv and a ‘‘refined’’ natural visibility value of 11.93 dv for the 20 percent worst days for Breton, the LDEQ calculated the URP to be approximately 0.23 dv per year. This results in a total reduction of 13.80 dv that are necessary to reach the natural visibility condition of 11.93 dv in 2064 for Breton NWA. The URP results in a visibility improvement of 3.22 dv for Breton for the period covered by this SIP revision submittal (up to and including 2018). TABLE 1—SUMMARY OF UNIFORM RATE OF PROGRESS Visibility metric Baseline Conditions .. Natural Visibility ........ Total Improvement by 2064. Improvement for this SIP by 2018. E:\FR\FM\28FEP1.SGM 28FEP1 Breton NWA 25.73 dv. 11.93 dv. 13.80 dv. 3.22 dv. Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules TABLE 1—SUMMARY OF UNIFORM RATE OF PROGRESS—Continued Visibility metric Uniform Rate of Progress. Breton NWA 0.23 dv/yr. We are proposing to find that LDEQ has appropriately calculated the URP and has satisfied the requirement in 40 CFR 51.308(d)(1)(i)(B). mstockstill on DSK4VPTVN1PROD with PROPOSALS C. Evaluation of Louisiana’s Reasonable Progress Goals We are proposing to find that Louisiana’s RPGs meet some federal requirements, but also contain some deficiencies. This section discusses three RPG requirements as they relate to the LA RH SIP: (1) Establishment of the RPG; (2) reasonable progress four factor analysis; and (3) reasonable progress consultation. See the TSD for a more detailed discussion of RPG requirements and the LA RH SIP for RPGs. The establishment of RPGs and the reasonable progress four factor analysis for Louisiana are linked to the EPA’s CAIR and the Transport Rule. As discussed in the Executive Summary above, in an earlier proposed action the EPA proposed a limited disapproval of the LA RH SIP (76 FR 82219). As discussed in that proposal, a number of states, including Louisiana, fully consistent with the EPA’s regulations at the time, relied on the trading programs of the CAIR to satisfy the BART requirement and the requirement for a long-term strategy sufficient to achieve the state-adopted reasonable progress goals. Louisiana also relied on the CAIR in assessing the need for emissions reductions from EGUs to ensure reasonable progress. As a result, Louisiana will have to consider whether EGUs previously covered by the CAIR, whether subject to BART or not, should be controlled to ensure reasonable progress.17 We are proposing to find that the State’s RPGs are deficient given our proposed finding, discussed in section IV.D. below, that certain of Louisiana’s BART determinations are not fully approvable. In general, the State followed the requirements of 40 CFR 51.308(d)(1), but these goals do not reflect appropriate emissions reductions from BART. 17 Because the Transport Rule will result in greater emission reductions overall than the CAIR, the EPA did not include the RPGs set by affected states in its December 30, 2011 limited disapproval (Transport Better than BART proposal, December 30, 2011, 76 FR 82219). VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 Establishment of the Reasonable Progress Goals The LDEQ adopted the CENRAP modeled 2018 visibility conditions as the RPGs for Breton NWA Class I area. The LDEQ established a RPG of 22.51 dv for Breton for 2018 for the 20% worst days. This represents a 3.22 dv improvement over a baseline of 25.73 dv. The CENRAP’s projections for 2018 for the 20% worst and best days for Breton, which Louisiana used in developing its RPGs for Breton, are shown in the LA RH SIP Appendix B titled, ‘‘Technical Support Document for CENRAP Emissions and Air Quality Modeling to Support Regional Haze State Implementation Plans.’’ 18 A comparison of the LDEQ’s predicted rate of progress to the glide path on the 20% worst days shows that, with projected control of Louisiana sources, Louisiana will be very close to the glide path throughout the first planning period.19 The CENRAP modeling shows that for the 20% best days, there would be a 0.90 dv improvement in visibility from the baseline for Breton. See, 40 CFR 51.308(d)(1). LDEQ’s Reasonable Progress ‘‘Four Factor’’ Analysis In establishing RPGs for a Class I area, the State is required by CAA § 169A(g)(1) and 40 CFR 51.308(d)(1)(i)(A) to ‘‘[c]onsider the costs of compliance, the time necessary for compliance, the energy and non-air quality environmental impacts of compliance, and the remaining useful life of any potentially affected sources, and include a demonstration showing how these factors were taken into consideration in selecting the goal.’’ In addition to this explicit statutory requirement, the RHR also establishes an analytical requirement to ensure that each state considers carefully the suite of emission reduction measures necessary to attain the URP. The RHR provides that the EPA will consider both the state’s consideration of the four factors in 40 CFR 51.308(d)(1)(i)(A) and its analysis of the URP ‘‘[i]n determining whether the State’s goal for visibility improvement provides for reasonable progress.’’ 40 CFR 51.308(d)(1)(iii). As explained in the preamble to the RHR, the URP analysis was adopted to ensure that states use a common analytical framework and to ensure an informed 18 The TSD for CENRAP Emissions and Air Quality Modeling to Support RH State Implementation is found in Appendix B of the Louisiana RH SIP. 19 See the LA RH SIP submittal, Chapter 8, Section 8.5, Figure 8.2. PO 00000 Frm 00070 Fmt 4702 Sfmt 4702 11847 and equitable decision making process to ensure a transparent process that would, among other things, ensure that the public would be provided with the information necessary to understand the emission reductions needed, the costs of such measures, and other factors associated with improvements in visibility. 64 FR at 35733. In establishing its RPGs for 2018 for the 20% worst days, the LDEQ relied on the improvements in visibility that were anticipated to result from federal, State, and local control programs that were either currently in effect or with mandated future-year emission reduction schedules that predate 2018, including BART emission limitations projected by the LDEQ. Based on the emissions reductions from these measures, the CENRAP modeled the projected visibility conditions anticipated at each Class I area in the region in 2018, and the LDEQ used these results to establish RPGs. States do have discretion in setting RPGs, but are required to do more than establish RPGs that meet or exceed the URP. The LDEQ did provide an analysis that considered the four statutory factors under 40 CFR 51.308(d)(1)(i)(A) to evaluate the potential of controlling certain sources or source categories for addressing visibility impacts from manmade sources within its borders. The LDEQ provides an analysis in Appendix H, CENRAP Regional Control Strategy Analysis Plan, showing that the URP goals are reasonable. In addition, the LDEQ provided a discussion of the four factors required for this analysis: costs of compliance, time for compliance, energy and non-air quality environmental impacts of compliance, and remaining useful life of any potentially affected sources in Chapter 10 of the RH SIP. In identifying and prioritizing potential regional haze control strategies, the LDEQ referenced the Alpine Geophysics report for the CENRAP. Table 7–4 of this report outlines potential facilities that could be considered when developing a subregional SO2 control strategy with the associated approximate costs (see the LA RH SIP Appendix H). TSD Table 4 shows the facilities in Louisiana identified in the Alpine report that potentially significantly impact visibility at Breton for which controls may be available. The LDEQ found that significant reductions would be achieved from consent decrees and the CAIR, and further examined the sources in Louisiana identified in the Alpine report for potential reductions. More information about the state’s discussion E:\FR\FM\28FEP1.SGM 28FEP1 11848 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules is available in section IV.C of the TSD and in the LA RH SIP submittal. mstockstill on DSK4VPTVN1PROD with PROPOSALS Reasonable Progress Consultation The LDEQ worked with the Visibility Improvement—States and Tribal Associations of the Southeast (VISTAS) and the CENRAP states to jointly develop the consultation strategy. The LDEQ used the CENRAP as the main vehicle for facilitating collaboration with FLMs and other states in developing its RH SIP. The LDEQ was able to use the CENRAP generated products, such as regional photochemical modeling results and visibility projections, and source apportionment modeling to assist in identifying neighboring states’ contributions to the visibility impairment at Breton NWA. The LDEQ determined that in addition to Louisiana, the following states make a contribution to decreased visibility in Louisiana’s Class I area: Mississippi, Alabama, and Florida (see Table 5 of the TSD for this proposal). The LDEQ conducted consultations in the form of face-to-face meetings and conference calls. Participants in the consultation process included states and tribes, the CENRAP and other RPOs, the EPA, and FLMs. The participating states determined that regional modeling and other findings based on existing and proposed controls arising from local, state, and federal requirements indicated that the Class I area in Louisiana is expected to meet the rate of progress goals for the first implementation period ending in 2018. The LDEQ determined that additional emissions reductions from other states were not necessary to address visibility impairment at Breton for the first implementation period ending in 2018, and all states participating in its consultations agreed with this. D. Evaluation of Louisiana’s BART Analyses BART is an element of Louisiana’s LTS for the first implementation period. As discussed in more detail in section III.D of this proposal, the BART evaluation process consists of three components: (1) An identification of all the BART-eligible sources; (2) an assessment of whether those BARTeligible sources are subject to BART; and (3) a determination of any BART controls. The LDEQ addressed these steps as follows: 1. Identification of BART-Eligible Sources An initial step of a BART evaluation is to identify all the BART-eligible sources within the state’s boundaries. VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 The LDEQ identified the BART-eligible sources in Louisiana by utilizing the three eligibility criteria in the BART Guidelines (70 FR 39158) and our regulations (40 CFR 51.301): (1) One or more emission units at the facility fit within one of the 26 categories listed in the BART Guidelines; (2) the emission unit(s) began operation on or after August 6, 1962, and was in existence on August 6, 1977; and (3) potential emissions of any visibility-impairing pollutant from subject units are 250 tpy or more. The LDEQ determined that the visibility-impairing pollutants in Louisiana include SO2, NOX, and PM, using PM less than 10 microns in diameter (PM10) as an indicator for PM (LA RH SIP, Chapter 9, p. 36). This is consistent with the RHR (40 CFR 51 Appendix Y, III.A.2). See the TSD for more information. The LDEQ sent a letter and survey form, together with guidance materials, requesting information about BART eligibility to every reporter (1167 facilities) to the emissions inventory for the state requesting information about BART eligibility. Of the 1167 facilities contacted, 1165 facilities responded, and reported 76 BART-eligible facilities. Of the two non-responders, one was found to be out of business, and the other was determined to have minor emissions. See the TSD for more information. Each of the 76 BARTeligible facilities is identified in Table 6 of the TSD. We agree with the LDEQ’s identification of BART-eligible sources. 2. Identification of Sources Subject to BART The next step of the BART evaluation is to identify those BART-eligible sources that may reasonably be anticipated to cause or contribute to any visibility impairment at any Class I area, i.e. those sources that are subject to BART. The BART Guidelines allow states to consider exempting some BART-eligible sources from further BART review because they may not reasonably be anticipated to cause or contribute to any visibility impairment in a Class I area. Following the identification of those sources that were determined to be BART eligible, the LDEQ performed a combination approach to determine whether BARTeligible sources would cause or contribute to visibility impairment at Breton. The LDEQ used a combination of an individual source attribution approach (dispersion modeling), and, for sources with common characteristics, a model plant PO 00000 Frm 00071 Fmt 4702 Sfmt 4702 approach.20 Please see the TSD and Appendix A of the TSD for more details regarding how sources were exempted from BART by the LDEQ and our analysis of this modeling. Louisiana considered each of the 76 BART-eligible facilities described earlier using the modeling methodologies described below. Modeling Methodology The BART Guidelines direct states to address SO2, NOX, and PM emissions as visibility-impairing pollutants, and states must exercise their ‘‘best judgment to determine whether ammonia or VOC emissions from a source are likely to have an impact on visibility in an area.’’ See, 70 FR 39162. As noted above, the LDEQ determined that the visibility-impairing pollutants in Louisiana are SO2, NOX, and particulate matter. Louisiana decided to not consider VOCs and ammonia among visibility-impairing pollutants for several reasons, as discussed in the TSD. We propose to accept the State’s decision to address only SO2, NOX, and PM as the visibility impairing pollutants. Consistent with BART Guidelines, the LDEQ used the CALPUFF modeling system to determine whether individual sources identified as BART-eligible were subject to or exempt from BART. For this modeling, Louisiana considered 76 BART-eligible facilities, as discussed in section IV.D.1. Based on this analysis, Louisiana identified 27 facilities for further consideration due to visibility impact above a 0.5 dv contribution threshold. These facilities are discussed in the next section of this action and are identified in Table 7 of the TSD. We are proposing to find the LDEQ’s chosen modeling methodology and screening approach are acceptable. For states using modeling to determine the applicability of BART to single sources, the BART Guidelines note that an important step is to set a contribution threshold to assess whether the impact of a single source is sufficient to cause or contribute to visibility impairment at a Class I area. The BART Guidelines state that, ‘‘[a] single source that is responsible for a 1.0 deciview change or more should be considered to ‘cause’ visibility impairment.’’ 70 FR 39104, 39161. The BART Guidelines also state that ‘‘the appropriate threshold for determining whether a source contributes to 20 The ‘‘model plant’’ approach can be used to determine whether a category of sources that share specific characteristics should be exempted from BART because these sources are not anticipated to cause or contribute to visibility impairment at a Class I area. See 40 CFR 51 Appendix Y.III. E:\FR\FM\28FEP1.SGM 28FEP1 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules visibility impairment ‘‘may reasonably differ across states,’’ but ‘‘[a]s a general matter, any threshold that you use for determining whether a source ‘contributes’ to visibility impairment should not be higher than 0.5 deciviews.’’ Id. Further, in setting a contribution threshold, states should ‘‘consider the number of emissions sources affecting the Class I areas at issue and the magnitude of the individual sources’ impacts.’’ The Guidelines affirm that states are free to use a lower threshold if they conclude that the location of a large number of BART-eligible sources in proximity of a Class I area justifies this approach. Considering the number of sources affecting Louisiana’s Class I area and the magnitude of each source’s impact, the LDEQ used a contribution threshold of 0.5 dv for determining which sources are subject to BART. We propose to accept the State’s selection of 0.5 dv as the threshold value. For the 27 facilities referenced above, Louisiana requested that the facilities provide additional modeling: Screening Modeling and, for sources that failed the Screening Modeling, Refined Modeling. Those facilities that the LDEQ requested to conduct this additional modeling and the results of the individual Screening and Refined Modeling analyses for each of these sources are shown in Table 7 of the TSD.21 Our evaluation of these modeling results showed that there was one facility, Mosaic Fertilizer Uncle Sam Plant (Mosaic), which had modeled visibility impacts that exceeded the 0.5 dv contribution threshold, but which the LDEQ determined was not subject to BART. At the time of the submittal, the LDEQ’s modeling showed that, using then-current permit maximum hourly emission rates, Mosaic had an operating emissions rate of 2,250 lbs/hr (maximum) and a significant modeled visibility impact at Breton of over 0.5 dv. At that time, Mosaic was reviewing possibilities for future control strategies on the A-Train Sulfuric Acid Stack that could be expected to reduce SO2 emissions for the facility. For purposes of performing a refined modeling analysis and exempting the source from BART requirements, Mosaic considered potential future emission rates based on future controls, and used a modeling data input of 258.3 lbs/hr (maximum). Although future controls were being considered, they were not yet in place. The RHR states that a source can be exempted if its visibility impacts at the 11849 time the SIP is developed are less than the screening value. See, 70 FR 39118. Because Mosaic’s impacts were greater than the screening value, at that time, the LDEQ should have completed a full five factor analysis to assure the appropriate BART level of control was implemented (as discussed in section IV.D.3). Therefore, we propose to find that the LDEQ erred in exempting the Mosaic facility from BART. For those facilities for which Screening and Refined Modeling was provided, with the exception of Mosaic, we propose to approve the modeling in the LA RH SIP submittal that identifies which sources are exempt from BART. Sources Subject to BART The sources that were not exempt from the BART requirements via dispersion modeling analyses and/or the use of model plants are subject to BART. For sources subject to BART in Louisiana, the LDEQ must make a determination of BART. The LDEQ identified three sources as subject to BART and we identified one more, Mosaic, as discussed previously in this proposal. All four of these sources are shown in Table 2. TABLE 2—NON-EGU SOURCES IN LOUISIANA SUBJECT TO BART Pollutants evaluated Facility name BART emission units Source category ConocoPhillips Co. Alliance Refinery ....... Various emission points in facility ........... Petroleum Refinery .................................. Rhodia, Inc ................................................ Sid Richardson Carbon Company ............ Sulfuric Acid Units 1 and 2 ...................... Units 1, 2, and 3 flares and dryers 2, 3 and 4. Various emission points in facility * ......... Sulfuric Acid ............................................. Carbon Black ........................................... SO2 NOX PM10 SO2 SO2 Chemical Process Facility * ..................... None * Mosaic Fertilizer Uncle Sam Plant * .......... * This facility was identified by EPA as subject to BART. Louisiana did not submit sourcespecific BART evaluations for EGUs in its analysis because the state chose to meet BART requirements for EGUs for SO2 and NOX by participation in the CAIR, and because modeling results showed that the PM emissions from EGUs did not warrant further control. This is discussed further in the next section. mstockstill on DSK4VPTVN1PROD with PROPOSALS 3. BART Determinations The next component of a BART evaluation is to perform the BART analysis. BART is a source-specific control determination, based on consideration of several factors set out in section 169A(g)(2) of the CAA. These factors include the costs of compliance and the degree of improvement in visibility associated with the use of possible control technologies. The EPA issued BART Guidelines (Appendix Y to Part 51) in 2005 to clarify the BART provisions based on the statutory and regulatory BART requirements (70 FR 39164). The BART Guidelines describe the BART analysis as consisting of the following five basic steps: • Step 1: Identify All Available Retrofit Control Technologies, • Step 2: Eliminate Technically Infeasible Options, • Step 3: Evaluate Control Effectiveness of Remaining Control Technologies, • Step 4: Evaluate Impacts and Document the Results, and • Step 5: Evaluate Visibility Impacts. We note the BART Guidelines provide that states must follow the guidelines in making BART determinations on a source-by-source basis for 750 MW power plants but are not required to use the process in the guidelines when making BART determinations for other types of sources. States with subject-toBART units with a generating capacity less than 750 MW are strongly encouraged to follow the BART Guidelines in making BART determinations, but they are not required to do so. However, the requirement to perform a BART analysis 21 The LDEQ provided screening modeling results for all sources identified as BART-eligible; see Appendix E of the LA RH SIP submission. VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 PO 00000 Frm 00072 Fmt 4702 Sfmt 4702 E:\FR\FM\28FEP1.SGM 28FEP1 mstockstill on DSK4VPTVN1PROD with PROPOSALS 11850 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules that considers ‘‘the technology available, the costs of compliance, the energy and nonair quality environmental impacts of compliance, any pollution control equipment in use at the source, the remaining useful life of the source, and the degree of improvement in visibility which may reasonably be anticipated to result from the use of such technology,’’ is found in 40 CFR 51.308(e)(1)(ii)(A) and the RHR, and applies to all subject-to-BART sources. For three facilities, ConocoPhillips Co., Rhodia Inc., and Sid Richardson Carbon Company, the LDEQ submitted a BART analysis under 40 CFR 51.308(e)(1)(ii)(A). For each of these facilities, we propose to find that the BART analysis satisfies part of the requirements, but does not satisfy all of the requirements. A summary of our proposed findings for these facilities is provided below. For more details, please see our evaluation of the BART determination for each subject-to-BART unit, in the TSD. As previously discussed, we are proposing to find that the state should have identified Mosaic as being subject to BART and made a BART determination for the source. This is discussed in more detail in section IV.D.2 of this action. Also, as discussed in the Executive Summary above, in an earlier proposed action EPA proposed a limited disapproval of the LA RH SIP (76 FR 82219). EPA’s proposed limited disapproval is based on deficiencies in the LA RH SIP submittal arising from the state’s reliance on the CAIR to meet certain regional haze requirements. States such as Louisiana that are subject to the requirements of the Transport Rule trading program only for NOX must still address BART for EGUs for SO2 and other visibility impairing pollutants. See, 76 FR at 82224. While we proposed on December 30, 2011 to issue a FIP to address the deficiencies in Louisiana’s SIP associated with the BART requirements for NOX for EGUs, we did not propose a FIP to address the deficiencies associated with the BART requirements for SO2. Louisiana also relied on the CAIR in assessing the need for emissions reductions for SO2 from EGUs to satisfy BART requirements. Consequently, Louisiana will have to reevaluate EGUs with respect to SO2 BART requirements. a. ConocoPhillips The ConocoPhillips Alliance Refinery is a petroleum refinery near Belle Chasse Louisiana and is a subject-toBART source. On December 5, 2005, ConocoPhillips and the EPA entered VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 into a Consent Decree (CD).22 The BART engineering analysis, provided by ConocoPhillips utilized emission reductions that are mandated per the CD for the fluidized catalytic cracker, the process refinery flares and the crude unit heater. Implementing these control projects per the CD emissions reductions will result in reducing the overall site visibility impacts. The visibility improvements resulting from this CD are discussed further in the TSD. However, the LDEQ did not provide a complete BART evaluation for these units. The submittal does not analyze controls for these units using the five steps as required by 40 CFR 51.308(e). Also, no emissions limits for BART for these units were included in the LA RH SIP. Therefore, for the units covered by the CD, the LDEQ must provide BART analyses for the units to meet BART requirements (40 CFR 51.308(e)(1)(ii)(A)).23 Also, a unit’s BART emissions limits must be a part of the RH SIP, and therefore the LDEQ must include the BART emissions limits in the RH SIP through a SIP revision.24 We propose to find that the BART determination for ConocoPhillips Alliance Refinery is deficient at this time. There are several other units subject to BART at the ConocoPhillips Alliance facility. These include the cooling water tower and gas-fired heaters. Louisiana provided a BART analysis for these as follows: cooling water tower for PM and PM10, and process heaters for NOX. For 22 Civil Action No. H–05–0285. A copy of this CD is available in the docket for this rulemaking. 23 The EPA recently finalized action approving New Jersey’s BART determinations for the ConocoPhillips Bayway Refinery, which is subject to the same CD as the ConocoPhillips Alliance Refinery. See https://www.epa.gov/compliance/ resources/cases/civil/caa/conocophillips.html. The proposal for that action explains that the EPA’s approval is based on New Jersey’s submittal of a complete BART evaluation for the subject-to BART units at the facility, and the fact that these units will be controlled ‘‘based on maximum feasible controls or a multi-factor analysis.’’ 76 FR 49711, at 49721; see also, 77 FR 19–01. The TSD for that action describes how New Jersey’s submittal included the BART analysis for NOX, SO2, and PM for the subject-to-BART units at this source in compliance with 40 CFR 51.308(e)(1)(ii)(A). TSD, pages 27–29, available at https://www.regulations.gov, Docket number EPA–R02–OAR–2011–0607. 24 The CAA requires RH SIPs to ‘‘to contain such emission limits * * * necessary to make reasonable progress toward meeting the national goal. * * *’’ CAA 169A(b)(2). The federal regulations further explain that the state must ‘‘submit an implementation plan containing emission limits representing BART and schedules for compliance with BART for each BART-eligible source that may reasonably be anticipated to cause or contribute to any impairment of visibility in any mandatory Class I Federal area.’’ 40 CFR 51.308(e). Finally, the preamble to the RHR states that ‘‘[t]he SIP revision must include the emission limitations determined to be BART for sources subject to BART. * * *’’ 64 FR 35714, at 35741. PO 00000 Frm 00073 Fmt 4702 Sfmt 4702 these units, ConocoPhillips determined, and the LDEQ agreed that there was not a cost effective control. We are proposing to accept the LDEQ’s BART analysis that no additional controls are required to meet BART for these units. For three other units, the emissions of PM, SO2, and NOX are minimal; so, the potential visibility improvement from controls on these units is also minimal. These units are the Product Dock No. 1 MVR Loading, the Product Dock No. 2 MVR Loading, and Coke Transfer and Storage. For detailed information, see the TSD section IV.D.3.a.iii and TSD Appendix A. The installation of any additional controls would likely achieve negligible emissions reductions, have almost no visibility impact on Breton, and would not be cost-effective.25 We propose to find that the LDEQ’s analysis for these units is adequate to meet BART requirements. b. Rhodia The Rhodia Sulfuric Acid plant is located in Baton Rouge. The Rhodia Sulfuric Acid plant produces sulfuric acid by using two sulfuric acid production trains, Unit 1 and Unit 2. Unit 1 was constructed in 1953, and at the time of the SIP submittal, had a production rate of 700 tons of sulfuric acid per day (700 tons sulfuric acid/ day). Although Rhodia Unit 1 was constructed outside the dates for BARTeligibility, the LDEQ identified it as BART-eligible. Therefore, we treat it as BART-eligible and have included this unit in the subject-to-BART discussion in this section.26 We request comments on whether this unit should be treated 25 ‘‘Consistent with the CAA and the implementing regulations, States can adopt a more streamlined approach to making BART determinations where appropriate. Although BART determinations are based on the totality of circumstances in a given situation, such as the distance of the source from a Class I area, the type and amount of pollutant at issue, and the availability and cost of controls, it is clear that in some situations, one or more factors will clearly suggest an outcome. Thus, for example, a State need not undertake an exhaustive analysis of a source’s impact on visibility resulting from relatively minor emissions of a pollutant where it is clear that controls would be costly and any improvements in visibility resulting from reductions in emissions of that pollutant would be negligible. In a scenario, for example, where a source emits thousands of tons of SO2 but less than one hundred tons of NOX, the State could easily conclude that requiring expensive controls to reduce NOX would not be appropriate. In another situation, however, inexpensive NOX controls might be available and a State might reasonably conclude that NOX controls were justified as a means to improve visibility despite the fact that the source emits less than one hundred tons of the pollutant.’’ 70 FR 39116. 26 We note it is possible for a source to have been constructed prior to the BART eligibility timeframe of August 7, 1962 to August 7, 1977, but to have been reconstructed during that timeframe and thus still BART-eligible. 70 FR 39159–60. E:\FR\FM\28FEP1.SGM 28FEP1 mstockstill on DSK4VPTVN1PROD with PROPOSALS Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules as BART-eligible. Unit 2 was constructed in 1968, and has a production rate of 1500 tons sulfuric acid/day. Therefore, Unit 2 is an ‘‘existing stationary facility’’ for purposes of BART eligibility, as defined in 40 CFR 51.301. Effective July 23, 2007, the EPA, LDEQ and other parties entered into a CD with Rhodia requiring a scrubber to be installed on each of the units to control SO2 emissions.27 The BART engineering analysis assumed emission reductions that have since been mandated per the CD for Units 1 and 2. As stated above, without controls, the BART screening modeling for Rhodia showed a visibility impact at Breton of greater than 0.5 dv. Implementing control projects per the CD emissions reductions will result in reducing the overall site visibility impacts, and based on modeling with controls the LDEQ expects the visibility impairment from Rhodia to be below 0.5 dv at Breton. The visibility improvements resulting from this CD are discussed in the TSD. However, the LDEQ did not submit a complete BART evaluation for these units. The submittal does not analyze controls for the units using the five steps as required by 40 CFR 51.308(e). In order to satisfy BART requirements for SO2, Louisiana must provide a BART analysis. The LDEQ may be able to find that the controls required under the CD are among the most stringent, and therefore, no additional controls would be required for these units to meet BART. 40 CFR 51 Appendix Y.IV.D.1.9. Also, the emissions limits for Rhodia’s subject-to-BART units were not included in the RH SIP revision, so the LDEQ must include the BART emission limits in the RH SIP through a SIP revision.28 We propose to find that the BART determination for Rhodia is deficient at this time. The visibility impact due to NOX and PM emissions from Rhodia’s two subject-to-BART units is minimal; so, the potential visibility improvement from controls on these units is also minimal. For detailed information, see the TSD section IV.D.3.b and TSD Appendix B. The installation of any additional controls would likely achieve negligible emissions reductions, have almost no visibility impact on Breton, and would not be cost-effective.25 We propose to find the LDEQ’s analysis for these pollutants is adequate to meet BART requirements. 27 Civil Action No. 2:07CV134 WL. A copy of this CD is available in the docket for this rulemaking. 28 CAA 169A(b)(2); 40 CFR 51.308(e); and 64 FR 35714, at 35741. VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 c. Sid Richardson Carbon Company The Sid Richardson Carbon Company is a subject-to-BART source located in West Baton Rouge Parish. For the subject-to-BART units at the Sid Richardson facility, Sid Richardson/ LDEQ submitted a BART engineering analysis. For PM, the LDEQ determined that the high efficiency fabric filters already in use at the facility are BART. We propose to find that the state acted within its discretion in making this determination, and that the PM analyses provided by the LDEQ and Sid Richardson meet BART requirements. For NOX, the LA RH SIP Chapter 9 states that the Sid Richardson engineering analyses included the potential installation of NOX add-on controls, but it determined that all were infeasible (there were no demonstrated NOX scrubbing technologies at any carbon black plants). However, there is not sufficient information in the LA RH SIP submittal to support the BART analysis conclusion that no controls are feasible. We propose to find that the NOX BART determination for Sid Richardson is deficient at this time. For SO2, the LA RH SIP Chapter 9 states that the Sid Richardson engineering analyses included the potential installation of SO2 add-on controls, but it determined that all were infeasible (there were no demonstrated SO2 scrubbing technologies at any carbon black plants). However, Appendix G of the LA RH SIP submittal reflects that the SO2 evaluation for Sid Richardson considered four potential approaches and evaluated them for cost effectiveness: Three add-on controls— caustic scrubbing, wet limestone scrubbing, and Haldor Topsoe’s SNOX process, which is a process that removes SO2, NOX and PM from flue gas; the fourth approach would be to limit the sulfur content of the feedstock oil.29 The SIP documentation does not reconcile the cost analyses provided with the corresponding conclusion of the technical infeasibility for these same control options. Based on the cost analysis provided, the installation and use of scrubbers to control emissions may be well within a range that is cost effective. Also, the LDEQ indicated that no controls were technically feasible, but the record does not provide a sufficient basis for this conclusion. There is not sufficient information in the LA RH SIP submittal to support the BART analysis conclusion that a scrubber, or other technology, is not feasible. For these reasons, we propose to find that the SO2 BART 29 LA RH SIP submittal TSD Appendix G, Environ Report, pg 14. PO 00000 Frm 00074 Fmt 4702 Sfmt 4702 11851 determination for Sid Richardson is deficient at this time. E. Long-Term Strategy As described in section III.E of this action, the LTS is a compilation of statespecific control measures relied on by the state for achieving its RPGs. Louisiana’s LTS for the first implementation period addresses the emissions reductions from federal, state, and local controls that take effect in the state from the end of the baseline period starting in 2004 until 2018. The Louisiana LTS was developed by the LDEQ, in coordination with the CENRAP RPO, through an evaluation of the following components: (1) Construction of a CENRAP 2002 baseline emission inventory; (2) construction of a CENRAP 2018 emission inventory, including reductions from the CENRAP member state controls required or expected under federal and state regulations, (including BART); (3) modeling to determine visibility improvement and apportion individual state contributions; (4) state consultation; and (5) application of the LTS factors. 1. Emissions Inventories 40 CFR 51.308(d)(3)(iii) requires that Louisiana document the technical basis, including modeling, monitoring and emissions information, on which it relied upon to determine its apportionment of emission reduction obligations necessary for achieving reasonable progress in each mandatory Class I Federal area it affects. Louisiana must identify the baseline emissions inventory on which its strategies are based. 40 CFR 51.308(d)(3)(iv) requires that Louisiana identify all anthropogenic sources of visibility impairment considered by the state in developing its long-term strategy. This includes major and minor stationary sources, mobile sources, and area sources. Louisiana met these requirements by relying on technical analyses developed by its RPO, CENRAP, and approved by all state participants, as described below. The emissions inventory used in the RH technical analyses was developed by the CENRAP with assistance from Louisiana. The LDEQ provided a statewide emissions inventory for 2002, representing the mid-point of the 2000– 2004 baseline period, and a projected emissions inventory for 2018, the end of the first 10-year planning period. The 2018 inventory is based on visibility modeling conducted by the CENRAP. The 2018 emissions inventory was developed by projecting 2002 emissions and applying reductions expected from E:\FR\FM\28FEP1.SGM 28FEP1 11852 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules federal and state regulations affecting the emissions of the visibility-impairing pollutants NOX, PM, SO2, and VOCs. a. Louisiana’s 2002 Emission Inventory The LDEQ and the CENRAP developed an emission inventory for four inventory source classifications: point, area, non-road and on-road mobile sources for the baseline year of 2002. Louisiana’s 2002 emissions inventory provides estimates of annual emissions for haze producing pollutants by source category as summarized in Table 3, based on information in Chapter 7 of Louisiana’s RH SIP. TABLE 3—LOUISIANA 2002 EMISSIONS INVENTORY [Tons/year] SO2 NH3 NOX VOCs PM10 PM2.5 Point ......................................................... Area .......................................................... Non-road mobile ...................................... On-road mobile ........................................ 286,050 81,153 14,324 4,653 9,237 75,381 563 3,748 312,634 99,060 117,250 15,137 89,025 124,311 109,598 64,643 73,333 245,162 10,663 3,563 60,899 84,068 9,791 2,689 Total .................................................. 386,180 88,929 544,081 387,577 332,721 157,447 See the TSD for details on how the 2002 emissions inventory was constructed. The EPA approved the 2002 emissions inventory on September 3, 2009 (74 FR 45561). We are proposing to find that Louisiana’s 2002 emission inventory is acceptable for the purpose of developing the LTS. b. Louisiana’s 2018 Emission Inventory In constructing Louisiana’s 2018 emission inventory, the LDEQ used a combination of our Economic Growth Analysis System (EGAS 6), our mobile emissions factor model (MOBILE 6), our off-road emissions factor model (NONROAD), and the Integrated Planning Model (IPM) for electric generating units. The CENRAP developed emissions for five inventory source classifications: Point, area, nonroad and on-road mobile sources, and biogenic sources. The CENRAP used the 2002 emission inventory, described above, to estimate emissions in 2018. All control strategies expected to take effect prior to 2018 are included in the projected emission inventory. Louisiana’s 2018 emissions inventory provides estimates of annual emissions for haze producing pollutants by source category as summarized in Table 4, based on information in Chapter 7 of the Louisiana RH SIP. TABLE 4—LOUISIANA’S 2018 EMISSIONS INVENTORY SO2 NH3 NOX VOCs PM10 PM2.5 Point ......................................................... Area .......................................................... Non-road mobile ...................................... On-road mobile ........................................ 354,087 87,538 11,584 561 14,435 36,896 72 5,436 269,215 114,374 106,685 44,806 187,741 117,600 64,294 30,340 73,136 16,936 8,670 1,191 60,899 14,536 7,955 1,191 Total .................................................. 453,770 56,839 535,080 399,975 99,933 84,581 See the TSD for details on how the 2018 emissions inventory was constructed. The CENRAP and LDEQ used this and other state’s 2018 emission inventories to construct visibility projection modeling for 2018. We are proposing to find that Louisiana’s 2018 emission inventory is acceptable. mstockstill on DSK4VPTVN1PROD with PROPOSALS 2. Visibility Projection Modeling The CENRAP performed modeling for the RH LTS for its member states, including Louisiana. The modeling analysis is a complex technical evaluation that began with selection of the modeling system. The CENRAP used (1) the Mesoscale Meteorological Model (MM5) meteorological model, (2) the Sparse Matrix Operator Kernel Emissions (SMOKE) modeling system to generate hourly gridded speciated emission inputs, (3) the Community Multiscale Air Quality (CMAQ) VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 photochemical grid model and (4) the Comprehensive Air Quality model with extensions (CAMX), as a secondary corroborative model. The CAMX was also utilized with its Particulate Source Apportionment Technology (PSAT) tool to provide source apportionment for both the baseline and future case visibility modeling. The photochemical modeling of RH for the CENRAP states for 2002 and 2018 was conducted on the 36-km resolution national regional planning organization domain that covered the continental U.S., portions of Canada and Mexico, and portions of the Atlantic and Pacific Oceans along the east and west coasts. The CENRAP states’ modeling was developed consistent with our guidance.30 30 Guidance on the Use of Models and Other Analyses for Demonstrating Attainment of Air Quality Goals for Ozone, PM2.5, and Regional Haze, (EPA–454/B–07–002), April 2007, located at PO 00000 Frm 00075 Fmt 4702 Sfmt 4702 The CENRAP examined the model performance of the regional modeling for the areas of interest before determining whether the CMAQ model results were suitable for use in the RH assessment of the LTS and for use in the modeling assessment. The 2002 modeling efforts were used to evaluate air quality/visibility modeling for a historical episode—in this case, for calendar year 2002—to demonstrate the suitability of the modeling systems for subsequent planning, sensitivity, and emissions control strategy modeling. Model performance evaluation is performed by comparing output from https://www.epa.gov/scram001/guidance/guide/ final-03-pm-rh-guidance.pdf. Emissions Inventory Guidance for Implementation of Ozone and Particulate Matter National Ambient Air Quality Standards (NAAQS) and Regional Haze Regulations, August 2005, updated November 2005 (‘‘our Modeling Guidance’’), located at https://www. epa.gov/ttnchie1/eidocs/eiguid/, EPA– 454/R–05–001. E:\FR\FM\28FEP1.SGM 28FEP1 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules model simulations with ambient air quality data for the same time period to determine whether the model’s performance is sufficiently accurate to justify using the model for simulating future conditions. Once the CENRAP determined the model performance to be acceptable, it used the model to determine the 2018 RPGs using the current and future year air quality modeling predictions, and compared the RPGs to the URP. The results of the CENRAP’s visibility projection modeling are discussed in the section that follows. We are proposing to find that Louisiana’s visibility projection modeling is acceptable. 3. Sources of Visibility Impairment Where Louisiana causes or contributes to impairment in a mandatory Class I Federal area, it must demonstrate that it has included in its SIP all measures necessary to obtain its share of the emission reductions needed to meet the progress goal for the area. If Louisiana has participated in a regional planning process, it must ensure it has included all measures needed to achieve its apportionment of emission reduction obligations agreed upon through that process. 40 CFR 51.308(d)(3)(ii) requires that, ‘‘Where other states cause or contribute to impairment in a * * * Class I area, the state must demonstrate that it has included * * * all measures necessary to obtain its share of the emissions reductions needed to meet the progress goal for the area. If the state has participated in a regional planning process, the state must ensure it has included all measures needed to achieve its apportionment of emission reduction obligations agreed upon through that process.’’ The CENRAP used CAMX with its PSAT tool to provide source apportionment by geographic region and major source category. The pollutants causing the highest levels of light extinction are associated with the sources causing the most visibility impairment. a. Sources of Visibility Impairment in the Breton Class I Area Visibility impairment at Breton in 2002 on the worst 20% days is primarily (69%) due to point source emissions that contribute 77.7 inverse megameters 31 (Mm¥1) of the total extinction of 122.1 Mm¥1. The largest contributions come from inside the 11853 state. In 2018, point sources continue to contribute the most to visibility impairment at Breton, even though this contribution has decreased substantially. ‘‘The top five contributing source groups to 2018 visibility impairment at [Breton] for the worst 20 percent days are: Louisiana Elevated Point Sources; Boundary Conditions; 32 East Elevated Point Sources; Gulf of Mexico Area Sources; and Louisiana Area Sources. Gulf of Mexico Area sources include off shore shipping and oil and gas development emissions.’’ 33 We are proposing to find that Louisiana’s identification of sources of visibility impairment for the Breton Class I area is acceptable. b. Louisiana’s Contribution to Visibility Impairment in Class I Areas Outside the State Table 5 shows the CENRAP CAMx and PSAT modeled contributions (in percentage of visibility impacts) to total extinction at all Class I areas from Louisiana sources for 2002 and 2018, respectively. The CAMx PSAT results were utilized to evaluate the impact of Louisiana emission sources in 2002 and 2018 on visibility impairment at Class I areas outside of the state. TABLE 5—PERCENT CONTRIBUTION FROM LOUISIANA EMISSIONS TO TOTAL VISIBILITY IMPAIRMENT AT CLASS I AREAS ON 20% WORST DAYS State Breton (BRET1) ........................................................ Wichita Mountains (WIMO1) .................................... Caney Creek (CACR1) ............................................. Big Bend NP (BIBE1) ............................................... Upper Buffalo Wilderness (UPBU1) ......................... Hercules Glades Wilderness (HEGL1) ..................... Guadalupe Mountains NP (GUMO1) ....................... White Mountain Wilderness (WHIT1) ....................... Sipsey Wilderness (SIPS1) ...................................... Salt Creek (SACR1) ................................................. Mammoth Cave NP (MACA1) .................................. Seney (SENE1) ........................................................ Bosque del Apache (BOAP1) ................................... Great Smoky Mountains NP (GRSM1) .................... Isle Royale NP (ISLE1) ............................................ Badlands NP (BADL1) .............................................. Cadiz (CADI1) .......................................................... Gila Wilderness (GICL1) .......................................... Bondville (BOND1) ................................................... Mingo (MING1) ......................................................... Bandelier (BAND1) ................................................... San Pedro Parks (SAPE1) ....................................... Wind Cave NP (WICA1) ........................................... Wheeler Peak Wilderness (WHPE1) ........................ mstockstill on DSK4VPTVN1PROD with PROPOSALS Class I area 2002 Louisiana .................................................................. Oklahoma ................................................................. Arkansas ................................................................... Texas ........................................................................ Arkansas ................................................................... Missouri .................................................................... Texas ........................................................................ New Mexico .............................................................. Alabama .................................................................... New Mexico .............................................................. Kentucky ................................................................... Michigan ................................................................... New Mexico .............................................................. Tennessee ................................................................ Michigan ................................................................... South Dakota ............................................................ Kentucky ................................................................... New Mexico .............................................................. Illinois ........................................................................ Missouri .................................................................... New Mexico .............................................................. New Mexico .............................................................. South Dakota ............................................................ New Mexico .............................................................. 2018 15.75 3.47 2.86 2.79 1.80 1.71 1.32 1.28 0.96 0.93 0.67 0.54 0.42 0.40 0.39 0.36 0.34 0.30 0.27 0.22 0.21 0.20 0.14 0.14 24.67 4.83 4.23 3.32 2.71 2.43 1.57 1.44 1.78 1.07 1.19 0.77 0.48 0.83 0.49 0.41 0.59 0.37 0.41 0.33 0.24 0.22 0.16 0.16 As shown in the Table above, the largest contribution from Louisiana sources is at the Wichita Mountains Class I area in Oklahoma in both 2002 and 2018. Louisiana is also projected to contribute a small amount of visibility 31 An inverse megameter is the direct measurement unit for visibility impairment data. It is the amount of light scattered and absorbed as it travels over a distance of one million meters. Deciviews (dv) can be calculated from extinction data as follows: dv = 10 × ln (bext(Mm¥1)/10). 32 ‘‘Boundary Conditions’’ means ‘‘the assumed concentrations along the later edges of the 36 km modeling domain.’’ LA RH SIP submittal Appendix B, Environ Report, p. 1–16. 33 LA RH SIP submittal Appendix B, Environ Report, p. 5–18. VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 PO 00000 Frm 00076 Fmt 4702 Sfmt 4702 E:\FR\FM\28FEP1.SGM 28FEP1 11854 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules degradation at Class I areas in other states as listed in Table 5. This table summarizes the projected contribution from Louisiana’s emissions on visibility degradation to Class I areas for the 20 percent worst days in 2002 and 2018, as modeled by the CENRAP.34 We are proposing to find that Louisiana’s identification of sources of visibility impairment for Class I areas outside the state is acceptable. mstockstill on DSK4VPTVN1PROD with PROPOSALS 4. Consultation for Other State’s Class I Areas The LDEQ used the CENRAP as its main vehicle for facilitating collaboration with FLMs and other states in the CENRAP, and the VISTAS for other states outside the CENRAP to satisfy its LTS consultation requirement. This helped the LDEQ and other state agencies analyze emission apportionments at Class I areas and develop coordinated RH SIP strategies. 40 CFR 51.308(d)(3)(i) requires that Louisiana consult with other states if its emissions are reasonably anticipated to contribute to visibility impairment at that state’s Class I area(s), and that Louisiana consult with other states if those states’ emissions are reasonably anticipated to contribute to visibility impairment at Breton NWA. The LDEQ’s consultations with other states are described in section IV.C.3 of this action. The CENRAP visibility modeling demonstrates Louisiana sources are responsible for a visibility extinction of approximately 3.5 Mm¥1 at Caney Creek on the worst 20% days for 2002.26 The LDEQ consulted with Arkansas as well as Oklahoma, Texas, Mississippi, Alabama, and Florida whose emissions have a potential visibility impact at Breton. We are proposing to find that the LDEQ’s consultations satisfy the requirements under 40 CFR 51.308(d)(3)(i). 5. Mandatory Long-Term Strategy Factors 40 CFR 51.308(d)(3)(v) requires that Louisiana consider certain factors in developing its long-term strategy (the LTS factors). These include: (a) Emission reductions due to ongoing air pollution control programs, including measures to address RAVI; (b) measures to mitigate the impacts of construction activities; (c) emissions limitations and schedules for compliance to achieve the reasonable progress goal; (d) source retirement and replacement schedules; (e) smoke management techniques for 34 See Appendix A of the TSD for this proposal for the CENRAP Emissions and Air Quality Modeling to Support Regional Haze State Implementation, as well as Appendix B of the LA RH SIP. VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 agricultural and forestry management purposes including plans as currently exist within the state for these purposes; (f) enforceability of emissions limitations and control measures; and (g) the anticipated net effect on visibility due to projected changes in point, area, and mobile source emissions over the period addressed by the long-term strategy. For the reasons outlined below, we are proposing to find that Louisiana has satisfied some, but not all of the requirements of 40 CFR 51.308(d)(3)(v). Also, Louisiana will have to consider whether EGUs previously covered by the CAIR, whether subject to BART or not, should be controlled to ensure reasonable progress. a. Reductions Due to Ongoing Air Pollution Programs In addition to its BART determinations, Louisiana’s LTS incorporates emission reductions due to a number of ongoing air pollution control programs. The LDEQ considered the Tier 2 Vehicle Emission Standards in developing its LTS. Federal Tier 2 Vehicle Emission Standards for passenger cars and light trucks were fully implemented in 2009 and similar rules for heavy trucks were also implemented by 2009. These federal standards will result in reductions of emissions of PM, ozone precursors, and non-methane organic compounds. In developing its LTS, the LDEQ also considered the Highway Diesel and Nonroad Diesel Rules, which mandated the use of lower sulfur fuels in diesel engines beginning in 2006 for highway diesel fuel, and 2007 for non-road diesel fuel. These federal rules have resulted in more effective control of PM emissions from diesel engines by allowing the installation of control devices that were technically infeasible for fuels with higher sulfur content. In addition, the state will rely on federal consent decrees and implementation of the 2008 ozone standard. As noted in the EPA’s separate notice proposing revisions to the RHR (76 FR 82219) a number of states, including Louisiana, fully consistent with the EPA’s regulations at the time, relied on the trading programs of the CAIR to satisfy the BART requirement and the requirement for a long-term strategy sufficient to achieve the state-adopted reasonable progress goals. In that notice, we proposed a limited disapproval of Louisiana’s long-term strategy and, for that reason, we are not taking action on the long-term strategy in this proposal insofar as Louisiana’s RH SIP relied on the CAIR. The docket for that rulemaking is available at Docket ID No. PO 00000 Frm 00077 Fmt 4702 Sfmt 4702 EPA–HQ–OAR–2011–0729. Louisiana’s LTS is also deficient because it relied on deficient non-EGU BART determinations as discussed in section IV.D of this action. b. Measures To Mitigate the Impacts of Construction Activities 40 CFR 51.308(d)(3)(v)(B) requires that Louisiana consider measures to mitigate the impacts of construction activities in developing its LTS. Construction-related activities are believed to be a small contributor to fine and coarse particulates in Louisiana. The LDEQ notes that Louisiana may require visibility monitoring in any Class I area where preconstruction and post-construction of any new source or major modification may have an adverse impact on visibility in any Class I area (LAC 33:III.504.E.3.b). In spite of a great deal of construction activity from the recovery from Hurricanes Katrina and Rita, no measurable impacts on visibility have been monitored from this activity. We are proposing to find that Louisiana satisfies this component of LTS. c. Emissions Limitations and Schedules of Compliance 40 CFR 51.308(d)(3)(v)(C) requires that in developing its LTS, Louisiana consider emissions limitations and schedules of compliance to achieve the RPGs. As discussed in section IV.D.3 of this proposal, the SIP does not yet contain emission limits and schedules of compliance for those sources subject to BART. The BART emission limits established by the LDEQ are an element of the LTS, and because we are proposing to find that the relevant portion of the LDEQ’s BART determinations are deficient, we propose to find that this element of the LTS does not satisfy the federal requirements. d. Source Retirement and Replacement Schedules 40 CFR 51.308(d)(3)(v)(D) requires that Louisiana consider source retirement and replacement schedules in developing its LTS. The LDEQ adequately addressed how it considered source retirement and replacement schedules in the development of its LTS. Louisiana’s LTS includes the promulgation of new rules for retrofit technology for existing equipment to meet requirements for new NAAQS, which will also provide visibility benefits. We are proposing to find that the LDEQ properly addressed the requirements of 40 CFR 51.308(d)(3)(v)(D) in the development of its LTS. E:\FR\FM\28FEP1.SGM 28FEP1 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules e. Agricultural and Forestry Smoke Management Techniques 40 CFR 51.308(d)(3)(v)(E) requires that Louisiana consider smoke management techniques for agricultural and forestry management purposes in developing its LTS. Where smoke impacts from fire are identified as an important contributor to regional haze, smoke management programs should be a key component of regional and State regional haze planning efforts and longterm strategies (64 FR 35736). The EPA encourages the development of smoke management programs between air regulators and land managers as a means to manage the impacts of wildland and prescribed burning. The sources of information described above, as well as other developmental efforts currently underway, provide effective, flexible approaches to smoke management. The LDEQ considered smoke management techniques for the purposes of agricultural and forestry management in its LTS. Chapter 13 of Title 33 of the LAC contains a general prohibition on ‘‘open burning of refuse, garbage, trade waste, or other waste material.’’ Although the LDEQ does not have the jurisdiction or authority to make any rule, regulation, recommendations, or determination with respect to agricultural burning or controlled burns of pastureland, marshland, or timberland, the Louisiana Department of Agriculture and Forestry (LDAF) does have the authority. The LDAF, in consultation with the LDEQ, is working to develop a SMP that includes measures that can be taken to reduce residual smoke from burning activities as well as a process to evaluate potential smoke impacts at sensitive receptors and guidelines for scheduling fires such that exposure of sensitive populations is minimized and visibility impacts in Class I areas are reduced. Because visibility impacts from smoke are significant in Louisiana, we propose to find that Louisiana should finalize its SMP. mstockstill on DSK4VPTVN1PROD with PROPOSALS f. Enforceability of Emissions Limitations and Control Measures 40 CFR 51.308(d)(3)(v)(F) requires that Louisiana ensure the enforceability of emission limitations and control measures used to meet reasonable progress goals. The SIP does not yet contain emission limits and schedules of compliance for those EGU sources, if any, subject to SO2 BART. Also, Louisiana’s LTS is deficient because it relied on deficient non-EGU BART determinations as discussed in section IV.D of this action. The emissions limits VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 for these subject-to-BART sources were not included in the LA RH SIP.35 Therefore, we are proposing to find that the LDEQ has not fully satisfied the requirements of 40 CFR 51.308(d)(3)(v)(F) in the development of its LTS. g. Anticipated Net Effect on Visibility Due to Projected Changes 40 CFR 51.308(d)(3)(v)(G) requires that in developing its LTS, Louisiana consider the anticipated net effect on visibility due to projected changes in point, area, and mobile source emissions over the period addressed by the long-term strategy. In developing its RH SIP, the LDEQ relied on the CENRAP’s 2018 modeling projections, which show that net visibility is expected to improve by 3.22 dv at Breton NWA. The CENRAP’s 2018 modeling projections account for changes in point, area, and on-road and non-road mobile emissions. The results of the CENRAP’s 2018 modeling projections are discussed in sections IV.E.2 and IV.E.3 of this proposed rulemaking. We are proposing to find that Louisiana satisfies this component of LTS. F. Coordination of RAVI and Regional Haze Requirements Our visibility regulations direct states to coordinate their RAVI LTS and monitoring provisions with those for RH, as explained in section III of this action. Under our RAVI regulations, the RAVI portion of a state SIP must address any integral vistas identified by the FLMs pursuant to 40 CFR 51.304. See, 40 CFR 51.302. An integral vista is defined in 40 CFR 51.301 as a ‘‘view perceived from within the mandatory Class I Federal area of a specific landmark or panorama located outside the boundary of the mandatory Class I Federal area.’’ Visibility in any mandatory Class I Federal area includes any integral vista associated with that area. The FLMs for Breton have not identified any reasonably attributable visibility impairment (i.e., RAVI) from Louisiana or other U.S. sources. The FLMs for the Class I areas that Louisiana’s emissions impact in other states have not identified any reasonably attributable visibility impairment caused by Louisiana sources. For these reasons, the Louisiana RH SIP does not have any measures in place or a requirement to address RAVI. We propose to find that this requirement is not applicable to the LA RH SIP at this time. This provision 35 CAA 169A(b)(2); 40 CFR 51.308(e); and 64 FR 35714, at 35741. PO 00000 Frm 00078 Fmt 4702 Sfmt 4702 11855 may be re-considered upon receipt of submittals from the LDEQ for subsequent implementation periods. G. Monitoring Strategy and Other SIP Requirements 40 CFR 51.308(d)(4) requires the SIP contain a monitoring strategy for measuring, characterizing, and reporting of RH visibility impairment that is representative of all mandatory Class I Federal areas within the state. This monitoring strategy must be coordinated with the monitoring strategy required in 40 CFR 51.305 for reasonably attributable visibility impairment. As 40 CFR 51.308(d)(4) notes, compliance with this requirement may be met through participation in the IMPROVE network. See the TSD for details concerning the IMPROVE network. We are proposing to find that the LDEQ has satisfied this requirement. 40 CFR 51.308(d)(4)(i) requires the establishment of any additional monitoring sites or equipment needed to assess whether reasonable progress goals to address RH for all mandatory Class I Federal areas within the state are being achieved. The CENRAP monitoring workgroup noted there was a visibility void in Southern Arkansas. An IMPROVE protocol monitor was located in north central Louisiana. PM2.5 measurements from the Louisiana monitoring network help the LDEQ to characterize air pollution levels in areas across the state and therefore aid in the analysis of visibility improvement in and near the Class I areas. The LDEQ also commits in the Louisiana RH SIP to consider alternative approaches to evaluating visibility monitoring obligations if that becomes necessary. We are proposing to find that the LDEQ has satisfied this requirement. 40 CFR 51.308(d)(4)(ii) requires that the LDEQ establish procedures by which monitoring data and other information are used in determining the contribution of emissions from within Louisiana to RH visibility impairment at mandatory Class I Federal areas both within and outside the state. The monitor at Breton was owned and operated by the USFWS. After this monitor was destroyed by Hurricane Katrina in 2005, the monitor was replaced and relocated nearby, by the USFWS, at Lake Catherine in St. Bernard Parish. The IMPROVE monitoring program is national in scope, and other states have similar monitoring and data reporting procedures, ensuring a consistent and robust monitoring data collection system. As 40 CFR 51.308(d)(4) indicates, participation in the IMPROVE program constitutes compliance with E:\FR\FM\28FEP1.SGM 28FEP1 11856 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules mstockstill on DSK4VPTVN1PROD with PROPOSALS this requirement. We are therefore proposing that the LDEQ has satisfied this requirement. 40 CFR 51.308(d)(4)(iv) requires that the SIP must provide for the reporting of all visibility monitoring data to the Administrator at least annually for each mandatory Class I Federal area in the state. To the extent possible, Louisiana should report visibility monitoring data electronically. 40 CFR 51.308(d)(4)(vi) also requires that the LDEQ provide for other elements, including reporting, recordkeeping, and other measures, necessary to assess and report on visibility. We are proposing that Louisiana’s participation in the IMPROVE network ensures the monitoring data is reported at least annually, is easily accessible, and therefore complies with this requirement. 40 CFR 51.308(d)(4)(v) requires that the LDEQ maintain a statewide inventory of emissions of pollutants that are reasonably anticipated to cause or contribute to visibility impairment in any mandatory Class I Federal area. The inventory must include emissions for a baseline year, emissions for the most recent year for which data are available, and estimates of future projected emissions. The State must also include a commitment to update the inventory periodically. Please refer to section IV.E of this action, where we discuss the LDEQ’s emission inventory. The LDEQ has stated that it intends to update the Louisiana statewide emissions inventories periodically. We are proposing to find that this satisfies the requirement in 40 CFR 51.308(d)(4)(v). H. Coordination With Federal Land Managers Breton NWA is a federally protected wilderness area for which the USFWS is the FLM. Although the FLMs are very active in participating in the RPOs, the RHR grants the FLMs a special role in the review of the RH SIPs, summarized in section III.H. of this action. We view both the FLMs and the state agencies as our partners in the RH process. 40 CFR 51.308(i)(1) requires that by November 29, 1999, Louisiana must have identified in writing to the FLMs the title of the official to which the FLM of Breton can submit any recommendations on the implementation of 40 CFR 51.308. We acknowledge this section has been satisfied by all states via communication prior to this SIP. Under 40 CFR 51.308(i)(2), Louisiana was obligated to provide the USFWS with an opportunity for consultation, in person and at least 60 days prior to holding a public hearing on its RH SIP. VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 In practice, state agencies have usually provided all FLMs—the Forest Service, the Park Service, and the USFWS, copies of their proposed RH SIP, as the FLMs collectively have reviewed these RH SIPs. The LDEQ followed this practice and proposed this implementation plan revision for public comment on November 20, 2007 and notified the federal land manager staff of the public hearing held on January 24, 2008. 40 CFR 51.308(i)(3) requires that the LDEQ provide in its RH SIP a description of how it addressed any comments provided by the FLMs. The LDEQ has provided that information in Appendix A of its RH SIP. Lastly, 40 CFR 51.308(i)(4) specifies the RH SIP must provide procedures for continuing consultation between the state and FLM on the implementation of the visibility protection program required by 40 CFR 51.308, including development and review of implementation plan revisions and 5-year progress reports, and on the implementation of other programs having the potential to contribute to impairment of visibility in the mandatory Class I Federal areas. The LDEQ has stipulated in its RH SIP it will continue to coordinate and consult with the FLMs as required by 40 CFR 51.308(i)(4). The LDEQ states it intends to consult the FLMs in the development of future progress reports and plan revisions, as well as during the implementation of programs having the potential to contribute to visibility impairment at Breton NWA. We are proposing to find that the LDEQ has satisfied 40 CFR 51.308(i). I. Periodic SIP Revisions and Five-Year Progress Reports The LDEQ affirmed its commitment to complete items required in the future under our RHR. The LDEQ acknowledged its requirement under 40 CFR 51.308(f), to submit periodic progress reports and RH SIP revisions, with the first report due by July 31, 2018 and every ten years thereafter. The LDEQ also acknowledged its requirement under 40 CFR 51.308(g), to submit a progress report in the form of a SIP revision to us every five years following this initial submittal of the Louisiana RH SIP. The report will evaluate the progress made towards the RPGs for each mandatory Class I area located within Louisiana and in each mandatory Class I area located outside Louisiana which may be affected by emissions from within Louisiana. We are proposing to find that the LDEQ has satisfied 40 CFR 51.308(f) and (g). PO 00000 Frm 00079 Fmt 4702 Sfmt 4702 J. Determination of the Adequacy of Existing Implementation Plan 40 CFR 51.308(h) requires that Louisiana take one of the listed actions, as appropriate, at the same time the State is required to submit any 5-year progress report to the EPA in accordance with 40 CFR 51.308(g). The LDEQ has committed in its SIP to take one of the actions listed under 40 CFR 51.308(h), depending on the findings of the 5-year progress report. We are proposing to find that the LDEQ has satisfied 40 CFR 51.308(h). V. Proposed Action We are proposing a partial disapproval and a partial limited approval of Louisiana’s RH SIP revision submitted on June 13, 2008. Specifically, we are proposing to find that the following portions of the LA RH SIP have satisfied the federal requirement and are addressed in our proposed partial limited approval, insofar as the elements do not rely on the SO2 reductions from the CAIR: The State’s • Identification of affected Class I areas; • Establishment of baseline, natural, and current visibility conditions, including the URP; • Coordination of RAVI and RH Requirements; • RH monitoring strategy and other SIP requirements under 40 CFR 51.308(d)(4); • Commitment to submit periodic RH SIP revisions and periodic progress reports describing progress towards the RPGs; • Commitment to make a determination of the adequacy of the existing SIP at the time a progress report is submitted; and • Coordination with Federal Land Managers. We are proposing to find that Louisiana’s RPGs meet some federal requirements, but also contain some deficiencies. We are proposing to find that the State’s RPGs are deficient given our proposed finding that certain of Louisiana’s BART determinations are not fully approvable. In general, the State followed the requirements of 40 CFR 51.308(d)(1), but these goals do not reflect appropriate emissions reductions from BART. For LTS, we are proposing to find that the State’s LTS satisfies many of the requirements under 40 CFR 51.308(d)(3); however, we are proposing to find that the submitted LTS is deficient because a portion of it relies on BART determinations that we are proposing to disapprove (see section IV.E for detailed information regarding E:\FR\FM\28FEP1.SGM 28FEP1 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules our proposed findings concerning LTS). Also, because visibility impacts from smoke are significant in Louisiana, we propose to find that that Louisiana should finalize its SMP. In addition, we are proposing to find that the following elements do not satisfy the federal requirements for the reasons discussed in section IV of this proposal: the State’s • Determination that the Mosaic Fertilizer Uncle Sam Plant is exempt from BART analysis; and • BART analyses for ConocoPhillips, Rhodia, and Sid Richardson Carbon Black Plant. As discussed in section I of this proposal, the State must address BART for SO2 for EGUs and the related element of LTS because it can no longer rely on the CAIR to address these requirements. In a separate action, the EPA proposed a limited disapproval of the Louisiana RH SIP because of deficiencies in the state’s regional haze SIP submittal arising from the remand by the U.S. Court of Appeals for the District of Columbia (DC Circuit) to the EPA of the CAIR. 76 FR 82219. We are not taking action in this proposal to address the state’s reliance on the CAIR to meet certain regional haze requirements related to NOX and SO2 emissions from EGUs. VI. Statutory and Executive Order Reviews Under the CAA, the Administrator is required to approve a SIP submission that complies with the provisions of the Act and applicable Federal regulations. 42 U.S.C. 7410(k); 40 CFR 52.02(a). Thus, in reviewing SIP submissions, EPA’s role is to act on state law as meeting Federal requirements and does not impose additional requirements beyond those imposed by state law. mstockstill on DSK4VPTVN1PROD with PROPOSALS A. Executive Order 12866: Regulatory Planning and Review and Executive Order 13563: Improving Regulation and Regulatory Review This proposed action is not a ‘‘significant regulatory action’’ under the terms of Executive Order 12866 (58 FR 51735, October 4, 1993) and is therefore not subject to review under Executive Orders 12866 and 13563 (76 FR 3821, January 21, 2011). B. Paperwork Reduction Act This proposed action does not impose an information collection burden under the provisions of the Paperwork Reduction Act, 44 U.S.C. 3501 et seq, because this proposed action under section 110 and subchapter I, part D of the CAA will not in-and-of itself create any new information collection burdens but simply approves or disapproves certain State requirements for inclusion VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 into the SIP. Burden is defined at 5 CFR 1320.3(b). C. Regulatory Flexibility Act The Regulatory Flexibility Act (RFA) generally requires an agency to conduct a regulatory flexibility analysis of any rule subject to notice and comment rulemaking requirements 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 not-for-profit enterprises, and small governmental jurisdictions. For purposes of assessing the impacts of today’s proposed rule on small entities, small entity is defined as: (1) A small business as defined by the Small Business Administration’s (SBA) regulations at 13 CFR 121.201; (2) a small governmental jurisdiction that is a government of a city, county, town, school district or special district with a population of less than 50,000; and (3) a small organization that is any not-forprofit enterprise which is independently owned and operated and is not dominant in its field. After considering the economic impacts of today’s proposed rule on small entities, I certify that this action will not have a significant impact on a substantial number of small entities. This proposed rule does not impose any requirements or create impacts on small entities. This proposed rule under section 110 and subchapter I, part D of the CAA will not in-and-of itself create any new requirements but simply approves or disapproves certain State requirements for inclusion into the SIP. Accordingly, it affords no opportunity for the EPA to fashion for small entities less burdensome compliance or reporting requirements or timetables or exemptions from all or part of the rule. The fact that the CAA prescribes that various consequences (e.g., higher offset requirements) may or will flow from this proposed rule does not mean that the EPA either can or must conduct a regulatory flexibility analysis for this action. Therefore, this action will not have a significant economic impact on a substantial number of small entities. We continue to be interested in the potential impacts of this proposed rule on small entities and welcome comments on issues related to such impacts. D. Unfunded Mandates Reform Act This action contains no Federal mandates under the provisions of Title II of the Unfunded Mandates Reform Act of 1995 (UMRA), 2 U.S.C. 1531– 1538, for State, local, or tribal governments or the private sector. The PO 00000 Frm 00080 Fmt 4702 Sfmt 4702 11857 EPA has determined that the proposed action does not include a Federal mandate that may result in estimated costs of $100 million or more to either State, local, or tribal governments in the aggregate, or to the private sector. This action proposes to approve or disapprove pre-existing requirements under State or local law, and imposes no new requirements. Accordingly, no additional costs to State, local, or tribal governments, or to the private sector, result from this action. E. Executive Order 13132, Federalism Executive Order 13132, entitled ‘‘Federalism’’ (64 FR 43255, August 10, 1999), requires the 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.’’ This proposed 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, because it merely approves or disapproves certain State requirements for inclusion into the SIP and does not alter the relationship or the distribution of power and responsibilities established in the CAA. Thus, Executive Order 13132 does not apply to this action. F. Executive Order 13175, Coordination With Indian Tribal Governments This proposed action does not have tribal implications, as specified in Executive Order 13175 (65 FR 67249, November 9, 2000), because the action the EPA is proposing neither imposes substantial direct compliance costs on tribal governments, nor preempts tribal law. Therefore, the requirements of section 5(b) and 5(c) of the Executive Order do not apply to this rule. Consistent with the EPA policy, the EPA nonetheless is offering consultation to Tribes regarding this rulemaking action. The EPA will respond to relevant comments in the final rulemaking action. E:\FR\FM\28FEP1.SGM 28FEP1 11858 Federal Register / Vol. 77, No. 39 / Tuesday, February 28, 2012 / Proposed Rules G. Executive Order 13045, Protection of Children From Environmental Health Risks and Safety Risks The EPA interprets Executive Order 13045 (62 FR 19885, April 23, 1997) as applying only to those regulatory actions that concern health or safety risks, such that the analysis required under section 5–501 of the Executive Order has the potential to influence the regulation. This proposed action is not subject to Executive Order 13045 because it is not an economically significant regulatory action based on health or safety risks subject to Executive Order 13045 (62 FR 19885, April 23, 1997). This proposed action under section 110 and subchapter I, part D of the CAA will not in and of itself create any new regulations but simply approves or disapproves certain State requirements for inclusion into the SIP. H. Executive Order 13211, Actions That Significantly Affect Energy Supply, Distribution or Use This proposed action is not subject to Executive Order 13211 (66 FR 28355, May 22, 2001) because it is not a significant regulatory action under Executive Order 12866. mstockstill on DSK4VPTVN1PROD with PROPOSALS I. National Technology Transfer and Advancement Act Section 12(d) of the National Technology Transfer and Advancement Act of 1995 (‘‘NTTAA’’), Public Law 104–113, section 12(d) (15 U.S.C. 272 note) directs the 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 adopted by voluntary consensus standards bodies. The NTTAA directs the EPA to provide Congress, through OMB, explanations when the Agency decides not to use available and applicable voluntary consensus standards. The EPA believes that this proposed action is not subject to requirements of Section 12(d) of the NTTAA because application of those requirements would be inconsistent with the CAA. J. Executive Order 12898: Federal Actions To Address Environmental Justice in Minority Populations and Low-Income Populations Executive Order 12898 (59 FR 7629, February 16, 1994) establishes federal executive policy on environmental justice. Its main provision directs federal agencies, to the greatest extent VerDate Mar<15>2010 18:48 Feb 27, 2012 Jkt 226001 practicable and permitted by law, to make environmental justice part of their mission by identifying and addressing, as appropriate, disproportionately high and adverse human health or environmental effects of their programs, policies, and activities on minority populations and low-income populations in the United States. The EPA lacks the discretionary authority to address environmental justice in this proposed action. In reviewing SIP submissions, the EPA’s role is to approve or disapprove state choices, based on the criteria of the CAA. Accordingly, this action merely proposes to approve or disapprove certain State requirements for inclusion into the SIP under section 110 and subchapter I, part D of the CAA and will not in and of itself create any new requirements. Accordingly, it does not provide the EPA with the discretionary authority to address, as appropriate, disproportionate human health or environmental effects, using practicable and legally permissible methods, under Executive Order 12898. List of Subjects in 40 CFR Part 52 Environmental protection, Air pollution control, Intergovernmental relations, Nitrogen dioxide, Ozone, Particulate matter, Reporting and recordkeeping requirements, Sulfur dioxides, Visibility, Interstate transport of pollution, Regional haze, Best available control technology. Authority: 42 U.S.C. 7401 et seq. Dated: February 15, 2012. Al Armendariz, Regional Administrator, Region 6. [FR Doc. 2012–4676 Filed 2–27–12; 8:45 am] BILLING CODE 6560–50–P ENVIRONMENTAL PROTECTION AGENCY 40 CFR Part 52 [EPA–R04–OAR–2010–0219–201148; FRL– 9639–2] Approval and Promulgation of Air Quality Implementation Plans; State of North Carolina; Regional Haze State Implementation Plan Environmental Protection Agency (EPA). ACTION: Proposed rule. AGENCY: EPA is proposing a limited approval of a revision to the North Carolina state implementation plan (SIP) submitted by the State of North Carolina through the North Carolina Department of Environment and Natural SUMMARY: PO 00000 Frm 00081 Fmt 4702 Sfmt 4702 Resources, Division of Air Quality (NCDAQ), on December 17, 2007, that addresses regional haze for the first implementation period. This revision addresses the requirements of the Clean Air Act (CAA) and EPA’s rules that require states to prevent any future and remedy any existing anthropogenic impairment of visibility in mandatory Class I areas (national parks and wilderness areas) caused by emissions of air pollutants from numerous sources located over a wide geographic area (also referred to as the ‘‘regional haze program’’). States are required to assure reasonable progress toward the national goal of achieving natural visibility conditions in Class I areas. EPA is proposing a limited approval of this SIP revision to implement the regional haze requirements for North Carolina on the basis that the revision, as a whole, strengthens the North Carolina SIP. In a separate action, EPA has proposed a limited disapproval of the North Carolina regional haze SIP because of deficiencies in the State’s regional haze SIP submittal arising from the remand by the U.S. Court of Appeals for the District of Columbia Circuit (DC Circuit) to EPA of the Clean Air Interstate Rule (CAIR). Consequently, EPA is not proposing to take action in this rulemaking to address the State’s reliance on CAIR to meet certain regional haze requirements. DATES: Comments must be received on or before March 29, 2012. ADDRESSES: Submit your comments, identified by Docket ID No. EPA–R04– OAR–2010–0219, by one of the following methods: 1. www.regulations.gov: Follow the on-line instructions for submitting comments. 2. Email: benjamin.lynorae@epa.gov. 3. Fax: 404–562–9019. 4. Mail: EPA–R04–OAR–2010–0219, Regulatory Development Section, Air Planning Branch, Air, Pesticides and Toxics Management Division, U.S. Environmental Protection Agency, Region 4, 61 Forsyth Street SW., Atlanta, Georgia 30303–8960. 5. Hand Delivery or Courier: Lynorae Benjamin, Chief, Regulatory Development Section, Air Planning Branch, Air, Pesticides and Toxics Management Division, U.S. Environmental Protection Agency, Region 4, 61 Forsyth Street SW., Atlanta, Georgia 30303–8960. Such deliveries are only accepted during the Regional Office’s normal hours of operation. The Regional Office’s official hours of business are Monday through Friday, 8:30 to 4:30, excluding federal holidays. E:\FR\FM\28FEP1.SGM 28FEP1

Agencies

ENVIRONMENTAL PROTECTION AGENCY

[Federal Register Volume 77, Number 39 (Tuesday, February 28, 2012)]
[Proposed Rules]
[Pages 11839-11858]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 2012-4676]

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ENVIRONMENTAL PROTECTION AGENCY

40 CFR Part 52

[EPA-R06-OAR-2008-0510; FRL-9640-6]

Approval and Promulgation of Implementation Plans; Louisiana;
Regional Haze State Implementation Plan

AGENCY: Environmental Protection Agency (EPA).

ACTION: Proposed rule.

-----------------------------------------------------------------------

SUMMARY: The EPA is proposing a partial disapproval and a partial
limited approval of a revision to the Louisiana State Implementation
Plan (SIP) submitted by the State of Louisiana through the Louisiana
Department of Environmental Quality (LDEQ) on June 13, 2008, that
addresses regional haze (RH) for the first implementation period. This
revision was submitted to address the requirements of the Clean Air Act
(CAA or Act) and the EPA's rules that require states to prevent any
future and remedy any existing man-made impairment of visibility in
mandatory Class I areas caused by emissions of air pollutants from
numerous sources located over a wide geographic area (also referred to
as the ``regional haze program''). States are required to assure
reasonable progress toward the national goal of achieving natural
visibility conditions in Class I areas. In a separate action, the EPA
has previously proposed a limited disapproval of the Louisiana regional
haze SIP because of deficiencies in the state's regional haze SIP
submittal arising from the remand by the U.S. Court of Appeals for the
District of Columbia (DC Circuit) to the EPA of the Clean Air
Interstate Rule (CAIR). In today's action, the EPA is proposing a
partial disapproval because of deficiencies in Louisiana's regional
haze SIP submittal that go beyond the issues addressed in the EPA's
proposed limited disapproval. The EPA is also proposing a partial
limited approval of those elements of this SIP revision not addressed
by our partial disapproval. The partial limited approval of the RH
requirements for Louisiana is based on the conclusion that the
revisions, as a whole, strengthen the Louisiana SIP. This action is
being taken under section 110 and part C of the CAA.

DATES: Comments must be received on or before March 29, 2012.

ADDRESSES: Submit your comments, identified by Docket No. EPA-R06-OAR-
2008-0510, by one of the following methods:
Federal e-Rulemaking Portal: https://www.regulations.gov.
Follow the online instructions for submitting comments.
Email: R6AIR_LAHAZE@epa.gov.
Mail: Mr. Guy Donaldson, Chief, Air Planning Section (6PD-
L), Environmental Protection Agency, 1445 Ross Avenue, Suite 1200,
Dallas, Texas 75202-2733.
Hand or Courier Delivery: Mr. Guy Donaldson, Chief, Air
Planning Section (6PD-L), Environmental Protection Agency, 1445 Ross
Avenue, Suite 1200, Dallas, Texas 75202-2733. Such deliveries are
accepted only between the hours of 8 a.m. and 4 p.m. weekdays, and not
on legal holidays. Special arrangements should be made for deliveries
of boxed information.
Fax: Mr. Guy Donaldson, Chief, Air Planning Section (6PD-
L), at fax number 214-665-6762.
Instructions: Direct your comments to Docket No. EPA-R06-OAR-2008-
0510. Our policy is that all comments received will be included in the
public docket without change and may be made available online at
www.regulations.gov, including any personal information provided,
unless the comment includes information claimed to be Confidential
Business Information (CBI) or other information whose disclosure is
restricted by statute. Do not submit information that you consider to
be CBI or otherwise protected through www.regulations.gov or email. The
www.regulations.gov Web site is an ``anonymous access'' system, which
means we will not know your identity or contact information unless you
provide it in the body of your comment. If you send an email comment
directly to us without going through www.regulations.gov your email
address will be automatically captured and included as part of the
comment that is placed in the public docket and made available on the
Internet. If you submit an electronic comment, we recommend that you
include your name and other contact information in the body of your
comment and with any disk or CD-ROM you submit. If we cannot read your
comment due to technical difficulties and cannot contact you for
clarification, we may not be able to consider your comment. Electronic
files should avoid the use of special characters, any form of
encryption, and be free of any defects or viruses.
Docket: All documents in the docket are listed in the
www.regulations.gov index. Although listed in the index, some
information is not publicly available, e.g., CBI or other information
whose disclosure is restricted by statute. Certain other material, such
as copyrighted material, will be publicly available only in hard copy.
Publicly available docket materials are available either electronically
in www.regulations.gov or in hard copy at the Air Planning Section
(6PD-L), Environmental Protection Agency, 1445 Ross Avenue, Suite 700,
Dallas, Texas 75202-2733. The file will be made available by
appointment for public inspection in the Region 6 FOIA Review Room
between the hours of 8:30 a.m. and 4:30 p.m. weekdays except for legal
holidays. Contact the person listed in the FOR FURTHER INFORMATION
CONTACT paragraph below or Mr. Bill Deese at 214-665-7253 to make an
appointment. If possible, please make the appointment at least two
working days in advance of your visit. There will be

[[Page 11840]]

a fee of 15 cents per page for making photocopies of documents. On the
day of the visit, please check in at our Region 6 reception area at
1445 Ross Avenue, Suite 700, Dallas, Texas.
The State submittal is also available for public inspection during
official business hours, by appointment, at the Louisiana Department of
Environmental Quality, 602 N. Fifth Street in Baton Rouge, Louisiana.

FOR FURTHER INFORMATION CONTACT: Ms. Ellen Belk, Air Planning Section
(6PD-L), Environmental Protection Agency, Region 6, 1445 Ross Avenue,
Suite 700, Dallas, Texas 75202-2733, telephone 214-665-2164; fax number
214-665-6762; email address belk.ellen@epa.gov.

SUPPLEMENTARY INFORMATION: Throughout this document wherever ``we,''
``us,'' or ``our'' is used, we mean the EPA.

Table of Content

I. Executive Summary of Proposed Action
II. What is the background for our proposed actions?
A. The Regional Haze Problem
B. Requirements of the CAA and EPA's Regional Haze Rule (RHR)
C. Roles of Agencies in Addressing Regional Haze
III. What are the requirements for regional haze sips?
A. The CAA and the Regional Haze Rule
B. Determination of Baseline, Natural, and Current Visibility
Conditions
C. Determination of Reasonable Progress Goals
D. Best Available Retrofit Technology (BART)
E. Long-Term Strategy (LTS)
F. Coordinating Regional Haze and Reasonably Attributable
Visibility Impairment (RAVI)
G. Monitoring Strategy and Other SIP Requirements
H. Coordination With Federal Land Managers
IV. Our Analysis of Louisiana's Regional Haze SIP
A. Identification of Affected Class I Areas
B. Determination of Baseline, Natural and Current Visibility
Conditions
1. Estimating Natural Visibility Conditions
2. Estimating Baseline Visibility Conditions
3. Natural Visibility Impairment
4. Uniform Rate of Progress
C. Evaluation of Louisiana's Reasonable Progress Goals
D. Evaluation of Louisiana's BART Analyses
1. Identification of BART-Eligible Sources
2. Identification of Sources Subject to BART
3. BART Determinations
a. ConocoPhillips
b. Rhodia
c. Sid Richardson Carbon Company
E. Long-Term Strategy
1. Emissions Inventories
a. Louisiana's 2002 Emission Inventory
b. Louisiana's 2018 Emission Inventory
2. Visibility Projection Modeling
3. Sources of Visibility Impairment
a. Sources of Visibility Impairment in the Breton Class I Area
b. Louisiana's Contribution to Visibility Impairment in Class I
Areas Outside the State
4. Consultation for Other States Class I Areas
5. Mandatory Long-Term Strategy Factors
a. Reductions Due to Ongoing Air Pollution Programs
b. Measures To Mitigate the Impacts of Construction Activities
c. Emissions Limitations and Schedules of Compliance
d. Source Retirement and Replacement Schedules
e. Agricultural and Forestry Smoke Management Techniques
f. Enforceability of Emissions Limitations and Control Measures
g. Anticipated Net Effect on Visibility Due to Projected Changes
F. Coordination of RAVI and Regional Haze Requirements
G. Monitoring Strategy and Other SIP Requirements
H. Coordination With Federal Land Managers
I. Periodic SIP Revisions and Five-Year Progress Reports
J. Determination of the Adequacy of Existing Implementation Plan
V. Proposed Action
VI. Statutory and Executive Order Reviews

I. Executive Summary of Proposed Action

The EPA is proposing a partial limited approval of Louisiana's June
13, 2008, SIP revision addressing regional haze (RH) under CAA sections
301(a) and 110(k)(3) because certain provisions of the revision
strengthen the Louisiana (LA) SIP. The EPA is also proposing a partial
disapproval of the LA RH SIP submittal because the submittal includes
several deficient provisions. The deficiencies identified in today's
action go beyond those identified in the limited disapproval proposed
on December 30, 2011 (76 FR 82219). Certain elements of the State's
Best Available Retrofit Technology (BART) evaluations and
determinations are not fully adequate to meet the federal requirements.
Additionally, as a result of the deficiencies related to BART, the
Long-Term Strategy (LTS) and Reasonable Progress Goals (RPGs) are not
fully adequate to meet federal requirements. Finally, because
visibility impacts from smoke are significant in Louisiana, we propose
that Louisiana should finalize its Smoke Management Plan (SMP). The
portions of the revision proposed for limited approval nevertheless
represent an improvement over the current SIP, and make considerable
progress in fulfilling the applicable CAA RH program requirements. This
proposed rulemaking and the accompanying Technical Support Document
(TSD) explain the basis for EPA's proposed partial limited approval and
partial disapproval.
Under CAA sections 301(a) and 110(k)(6) and EPA's long-standing
guidance,\1\ a limited approval results in approval of portions of the
SIP submittal, even though they are deficient and prevent EPA from
granting a full approval of the SIP revision. In an earlier proposed
action, EPA has proposed a limited disapproval of Louisiana's RH SIP
revision for not meeting all the applicable requirements of the CAA (76
FR 82219). In today's proposed action, having concluded based on a
careful review of the LA RH SIP revision that there are deficiencies in
the SIP beyond those identified in the proposed limited disapproval of
the LA RH SIP, we are proposing a partial disapproval of those
additional deficiencies and a partial limited approval of the rest of
the LA RH SIP. The partial limited approval proposes to give limited
approval to those portions of the SIP that are not being disapproved in
today's action for their benefit in strengthening the SIP even though
they do not fully meet regional haze requirements.
---------------------------------------------------------------------------

\1\ Processing of State Implementation Plan (SIP) Revisions, EPA
Memorandum from John Calcagni, Director, Air Quality Management
Division, OAQPS, to Air Division Directors, EPA Regional Offices I-X
(1992 Calcagni Memorandum) located at https://www.epa.gov/ttn/caaa/t1/memoranda/siproc.pdf.
---------------------------------------------------------------------------

Specifically, we are proposing to find that the following elements
of the submittal fully satisfy federal requirements insofar as the
elements do not rely on the sulfur dioxide (SO2) reductions
from CAIR: The State's identification of affected Class I areas; the
establishment of baseline, natural and current visibility conditions,
including the Uniform Rate of Progress (URP); coordination of
reasonably attributable visibility impairment (RAVI) and RH
requirements; the RH monitoring strategy and other SIP requirements
under 40 CFR 51.308(d)(4); the State's commitment to submit periodic RH
SIP revisions and periodic progress reports describing progress towards
the State's RPGs; the State's commitment to make a determination of the
adequacy of the existing SIP at the time a progress report is
submitted; and the State's coordination with Federal Land Managers
(FLMs).
We are proposing to find that Louisiana's RPGs meet some federal

[[Page 11841]]

requirements, but also contain some deficiencies. We are proposing to
find that the State's RPGs are deficient given our proposed finding
that certain of Louisiana's BART determinations are not fully
approvable. In general, the State followed the requirements of 40 CFR
51.308(d)(1), but these goals do not reflect appropriate emissions
reductions from BART.
For LTS, we are proposing to find that the State's LTS satisfies
many of the requirements under 40 CFR 51.308(d)(3); however, we are
proposing to find that the submitted LTS is deficient because a portion
of it relies on BART determinations that we are proposing to
disapprove. Also, because visibility impacts from smoke are significant
in Louisiana, we propose to find that that Louisiana should finalize
its SMP.
For the BART analyses for sources other than electric generating
units (EGUs), we are proposing to find that the State's identification
of subject-to-BART sources meets federal requirements in part, but that
the state should have identified Mosaic Fertilizer as being subject to
BART and made a BART determination for the source. This is discussed in
more detail in section IV.D.2 of this action. We are also proposing to
find that LDEQ's BART determinations for Conoco Phillips, Rhodia, and
Sid Richardson Carbon Black are not fully approvable. These BART
determinations are discussed in more detail in section IV.D.3 of this
action.
As noted above, in an earlier proposed action, EPA proposed a
limited disapproval of the Louisiana regional haze SIP. EPA's proposed
limited disapproval is based on deficiencies in the state's regional
haze SIP submittal arising from the state's reliance on CAIR to meet
certain regional haze requirements. In the same December 30, 2011
notice, EPA proposed to find that the Transport Rule,\2\ a rule issued
in 2011 to address the interstate transport of NOX and
SO2 in the eastern United States would, like CAIR, provide
for greater reasonable progress towards the national goal than would
BART. 76 FR 82219. Based on this proposed finding, EPA also proposed to
revise the Regional Haze Rule (RHR) to allow states to substitute
participation in the trading programs under the Transport Rule for
source-specific BART. This proposed revision applies only to EGUs in
the states in the Transport Rule region and only to the pollutants
subject to the requirements of the Transport Rule. States such as
Louisiana that are subject to the requirements of the Transport Rule
trading program only for nitrogen oxides (NOX) must still
address BART for EGUs for SO2 and other visibility impairing
pollutants. See, 76 FR at 82224. Consequently, while we proposed on
December 30, 2011 to issue a federal implementation plan (FIP) to
address the deficiencies in Louisiana's SIP associated with the BART
requirements for NOX for EGUs, we did not propose a plan to
address the deficiencies associated with the BART requirements for
SO2. The docket for this earlier EPA proposed limited
disapproval of Louisiana's regional haze SIP may be found at Docket ID
No. EPA-HQ-OAR-2011-0729.
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\2\ 76 FR 48208 (August 8, 2011).
---------------------------------------------------------------------------

Louisiana also relied on CAIR in assessing the need for emissions
reductions from EGUs to ensure reasonable progress. Consequently,
Louisiana will have to reconsider whether reductions of SO2
from EGUs, whether subject to BART or not, are appropriate for ensuring
reasonable progress.
Where a submittal addresses a mandatory requirement of the CAA, we
must, within 24 months following a final disapproval, either approve a
SIP or promulgate a FIP. CAA section 110(c)(1). At this time, we are
not proposing a FIP for the portions of the Louisiana RH SIP we are
proposing in this action to find deficient because LDEQ has expressed
its intent to revise the Louisiana RH SIP by correcting the
deficiencies. We are electing to not propose a FIP at this time in
order to provide Louisiana time to correct these deficiencies. However,
a final partial disapproval of Louisiana's RH SIP will start the two-
year mandatory FIP clock. If the State submits an approvable rule
revision during the FIP clock period, final approval of the rule
revision correcting the deficiencies will terminate the FIP clock.

II. What is the background for our proposed action?

A. The Regional Haze Problem

Regional haze is visibility impairment that is produced by a
multitude of sources and activities which are located across a broad
geographic area and emit fine particulate matter (PM2.5)
(e.g., sulfates, nitrates, organic carbon, elemental carbon, and soil
dust), and their precursors (e.g., SO2, NOX, and
in some cases, ammonia (NH3) and volatile organic compounds
(VOCs)). Fine particle precursors react in the atmosphere to form fine
particulate matter that impairs visibility by scattering and absorbing
light. Visibility impairment reduces the clarity, color, and visible
distance that one can see. PM2.5 can also cause serious
health effects and mortality in humans and contributes to environmental
effects such as acid deposition and eutrophication.
Data from the existing visibility monitoring network, the
``Interagency Monitoring of Protected Visual Environments'' (IMPROVE)
monitoring network, show that visibility impairment caused by air
pollution occurs virtually all the time at most national park and
wilderness areas. The average visual range \3\ in many Class I areas
\4\ (i.e., national parks and memorial parks, wilderness areas, and
international parks meeting certain size criteria) in the western
United States is 100-150 kilometers, or about one-half to two-thirds of
the visual range that would exist without anthropogenic air pollution.
In most of the eastern Class I areas of the United States, the average
visual range is less than 30 kilometers, or about one-fifth of the
visual range that would exist under estimated natural conditions. See,
64 FR 35715, July 1, 1999.
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\3\ Visual range is the greatest distance, in kilometers or
miles, at which a dark object can be viewed against the sky.
\4\ Areas designated as mandatory Class I Federal areas consist
of national parks exceeding 6,000 acres, wilderness areas and
national memorial parks exceeding 5,000 acres, and all international
parks that were in existence on August 7, 1977. See, 42 U.S.C.
7472(a). In accordance with section 169A of the CAA, EPA, in
consultation with the Department of Interior, promulgated a list of
156 areas where visibility is identified as an important value. See,
44 FR 69122, November 30, 1979. The extent of a mandatory Class I
area includes subsequent changes in boundaries, such as park
expansions. See, 42 U.S.C. 7472(a). Although states and tribes may
designate as Class I additional areas which they consider to have
visibility as an important value, the requirements of the visibility
program set forth in section 169A of the CAA apply only to
``mandatory Class I Federal areas.'' Each mandatory Class I Federal
area is the responsibility of a ``Federal Land Manager.'' See, 42
U.S.C. 7602(i). When the term ``Class I area'' is used in this
action, it means a ``mandatory Class I Federal area.''
---------------------------------------------------------------------------

B. Requirements of the CAA and EPA's Regional Haze Rule (RHR)

In section 169A of the 1977 Amendments to the CAA, Congress created
a program for protecting visibility in the nation's national parks and
wilderness areas. This section of the CAA establishes as a national
goal the ``prevention of any future, and the remedying of any existing,
impairment of visibility in mandatory Class I Federal areas which
impairment results from manmade air pollution.'' On December 2, 1980,
the EPA promulgated regulations to address visibility impairment in
Class I areas that is ``reasonably attributable'' to a single

[[Page 11842]]

source or small group of sources, i.e., ``reasonably attributable
visibility impairment.'' 45 FR 80084. These regulations represented the
first phase in addressing visibility impairment. The EPA deferred
action on regional haze that emanates from a variety of sources until
monitoring, modeling, and scientific knowledge about the relationships
between pollutants and visibility impairment were improved.
Congress added section 169B to the CAA in 1990 to address regional
haze issues. The EPA promulgated a rule to address regional haze on
July 1, 1999 (64 FR 35713), the RHR. The RHR revised the existing
visibility regulations to integrate into the regulation provisions
addressing regional haze impairment and established a comprehensive
visibility protection program for Class I areas. The requirements for
regional haze, found at 40 CFR 51.308 and 51.309, are included in the
EPA's visibility protection regulations at 40 CFR 51.300-309. Some of
the main elements of the regional haze requirements are summarized in
section III of this proposal. The requirement to submit a regional haze
SIP applies to all 50 states, the District of Columbia, and the Virgin
Islands.\5\ 40 CFR 51.308(b) requires states to submit the first
implementation plan addressing regional haze visibility impairment no
later than December 17, 2007.
---------------------------------------------------------------------------

\5\ Albuquerque/Bernalillo County in New Mexico must also submit
a regional haze SIP to completely satisfy the requirements of
section 110(a)(2)(D) of the CAA for the entire State of New Mexico
under the New Mexico Air Quality Control Act (section 74-2-4).
---------------------------------------------------------------------------

C. Roles of Agencies in Addressing Regional Haze

Successful implementation of the RH program will require long-term
regional coordination among states, tribal governments and various
federal agencies. As noted above, pollution affecting the air quality
in Class I areas can be transported over long distances, even hundreds
of kilometers (km). Therefore, to address effectively the problem of
visibility impairment in Class I areas, states need to develop
strategies in coordination with one another, taking into account the
effect of emissions from one jurisdiction on the air quality in
another.
Because the pollutants that lead to RH can originate from sources
located across broad geographic areas, we have encouraged the states
and tribes across the United States (U.S.) to address visibility
impairment from a regional perspective. Five regional planning
organizations (RPOs) were developed to address RH and related issues.
The RPOs first evaluated technical information to better understand how
their states and tribes impact Class I areas across the country, and
then pursued the development of regional strategies to reduce emissions
of particulate matter and other pollutants leading to RH.
The Central Regional Air Planning Association (CENRAP) is an
organization of states, tribes, federal agencies and other interested
parties that identifies RH and visibility issues and develops
strategies to address them. The CENRAP is one of the five RPOs across
the U.S. and includes the states and tribal areas of Nebraska, Kansas,
Oklahoma, Texas, Minnesota, Iowa, Missouri, Arkansas, and Louisiana.

III. What are the requirements for regional haze SIPs?

The following is a summary and basic explanation of the regulations
covered under the RHR. See, 40 CFR 51.308 for a complete listing of the
regulations under which this SIP is being evaluated.

A. The CAA and the Regional Haze Rule

RH SIPs must assure reasonable progress towards the national goal
of achieving natural visibility conditions in Class I areas. Section
169A of the CAA and our implementing regulations require states to
establish long-term strategies for making reasonable progress toward
meeting this goal. Implementation plans must also give specific
attention to certain stationary sources that were in existence on
August 7, 1977, but were not in operation before August 7, 1962, and
require these sources, where appropriate, to install BART controls for
the purpose of eliminating or reducing visibility impairment. The
specific RH SIP requirements are discussed in further detail in this
section.

B. Determination of Baseline, Natural, and Current Visibility
Conditions

The RHR establishes the deciview (dv) as the principal metric for
measuring visibility. See, 70 FR 39104. This visibility metric
expresses uniform changes in the degree of haze in terms of common
increments across the entire range of visibility conditions, from
pristine to extremely hazy conditions. Visibility is sometimes
expressed in terms of the visual range, which is the greatest distance,
in kilometers or miles, at which a dark object can just be
distinguished against the sky. The deciview is a useful measure for
tracking progress in improving visibility, because each deciview change
is an equal incremental change in visibility perceived by the human
eye. Most people can detect a change in visibility of one deciview.\6\
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\6\ The preamble to the RHR provides additional details about
the deciview. 64 FR 35714, 35725 (July 1, 1999).
---------------------------------------------------------------------------

The deciview is used in expressing RPGs (which are interim
visibility goals towards meeting the national visibility goal),
defining baseline, current, and natural conditions, and tracking
changes in visibility. The RH SIPs must contain measures that ensure
``reasonable progress'' toward the national goal of preventing and
remedying visibility impairment in Class I areas caused by man-made air
pollution by reducing anthropogenic emissions that cause RH. The
national goal is a return to natural conditions, i.e., man-made sources
of air pollution would no longer impair visibility in Class I areas.
To track changes in visibility over time at each of the 156 Class I
areas covered by the visibility program (40 CFR 81.401-437), and as
part of the process for determining reasonable progress, states must
calculate the degree of existing visibility impairment at each Class I
area at the time of each RH SIP submittal and periodically review
progress every five years, midway through each 10-year implementation
period. To do this, the RHR requires states to determine the degree of
impairment (in deciviews) for the average of the 20 percent least
impaired (``best'') and 20 percent most impaired (``worst'') visibility
days over a specified time period at each of their Class I areas. In
addition, states must also develop an estimate of natural visibility
conditions for the purpose of comparing progress toward the national
goal. Natural visibility is determined by estimating the natural
concentrations of pollutants that cause visibility impairment and then
calculating total light extinction based on those estimates. We have
provided guidance to states regarding how to calculate baseline,
natural and current visibility conditions.\7\
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\7\ Guidance for Estimating Natural Visibility Conditions Under
the Regional Haze Rule, September 2003, EPA-454/B-03-005, available
at https://www.epa.gov/ttncaaa1/t1/memoranda/rh_envcurhr_gd.pdf,
(hereinafter referred to as ``our 2003 Natural Visibility
Guidance''); and Guidance for Tracking Progress Under the Regional
Haze Rule, (EPA-454/B-03-004, September 2003, available at https://www.epa.gov/ttncaaa1/t1/memoranda/rh_tpurhr_gd.pdf, (hereinafter
referred to as our ``2003 Tracking Progress Guidance'').
---------------------------------------------------------------------------

For the first RH SIPs that were due by December 17, 2007,
``baseline visibility conditions'' were the starting points for
assessing ``current'' visibility impairment. Baseline visibility
conditions represent the degree of

[[Page 11843]]

visibility impairment for the 20 percent least impaired days and 20
percent most impaired days for each calendar year from 2000 to 2004.
Using monitoring data for 2000 through 2004, states are required to
calculate the average degree of visibility impairment for each Class I
area, based on the average of annual values over the five-year period.
The comparison of initial baseline visibility conditions to natural
visibility conditions indicates the amount of improvement necessary to
attain natural visibility, while the future comparison of baseline
conditions to the then current conditions will indicate the amount of
progress made. In general, the 2000--2004 baseline period is considered
the time from which improvement in visibility is measured.

C. Determination of Reasonable Progress Goals

The vehicle for ensuring continuing progress towards achieving the
natural visibility goal is the submission of a series of RH SIPs from
the states that establish two RPGs (i.e., two distinct goals, one for
the ``best'' and one for the ``worst'' days) for every Class I area for
each (approximately) 10-year implementation period. See, 70 FR 3915;
See also 64 FR 35714. The RHR does not mandate specific milestones or
rates of progress, but instead calls for states to establish goals that
provide for ``reasonable progress'' toward achieving natural (i.e.,
``background'') visibility conditions. In setting RPGs, states must
provide for an improvement in visibility for the most impaired days
over the (approximately) 10-year period of the SIP, and ensure no
degradation in visibility for the least impaired days over the same
period. Id.
States have significant discretion in establishing RPGs, but are
required to consider the following factors established in section 169A
of the CAA and in our RHR at 40 CFR 51.308(d)(1)(i)(A): (1) The costs
of compliance; (2) the time necessary for compliance; (3) the energy
and non-air quality environmental impacts of compliance; and (4) the
remaining useful life of any potentially affected sources. States must
demonstrate in their SIPs how these factors are considered when
selecting the RPGs for the best and worst days for each applicable
Class I area. States have considerable flexibility in how they take
these factors into consideration, as noted in our Reasonable Progress
Guidance.\8\ In setting the RPGs, states must also consider the rate of
progress needed to reach natural visibility conditions by 2064 (the
URP) and the emission reduction measures needed to achieve that rate of
progress over the 10-year period of the SIP. Uniform progress towards
achievement of natural conditions by the year 2064 represents a rate of
progress, which states are to use for analytical comparison to the
amount of progress they expect to achieve. In setting RPGs, each state
with one or more Class I areas (``Class I State'') must also consult
with potentially ``contributing states,'' i.e., other nearby states
with emission sources that may be affecting visibility impairment at
the Class I State's areas. 40 CFR 51.308(d)(1)(iv).
---------------------------------------------------------------------------

\8\ Guidance for Setting Reasonable Progress Goals under the
Regional Haze Program, June 1, 2007, memorandum from William L.
Wehrum, Acting Assistant Administrator for Air and Radiation, to EPA
Regional Administrators, EPA Regions 1-10 (pp. 4-2, 5-1).
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D. Best Available Retrofit Technology (BART)

Section 169A of the CAA directs states to evaluate the use of
retrofit controls at certain larger, often uncontrolled, older
stationary sources with the potential to emit greater than 250 tons per
year (tpy) or more of any visibility impairing pollutant in order to
address visibility impacts from these sources. Specifically, section
169A(b)(2)(A) of the Act requires states to revise their SIPs to
contain such measures as may be necessary to make reasonable progress
towards the natural visibility goal, including a requirement that
certain categories of existing major stationary sources \9\ built
between 1962 and 1977 procure, install, and operate the ``Best
Available Retrofit Technology'', as determined by the state or us in
the case of a plan promulgated under section 110(c) of the CAA. Under
the RHR, states are directed to conduct BART determinations for such
``BART-eligible'' sources that may be anticipated to cause or
contribute to any visibility impairment in a Class I area. Rather than
requiring source-specific BART controls, states also have the
flexibility to adopt an emissions trading program or other alternative
program as long as the alternative provides greater reasonable progress
towards improving visibility than BART.
---------------------------------------------------------------------------

\9\ The set of ``major stationary sources'' potentially subject
to BART are listed in CAA section 169A(g)(7).
---------------------------------------------------------------------------

We promulgated regulations addressing RH in 1999, 64 FR 35714 (July
1, 1999), codified at 40 CFR part 51, subpart P.\10\ These regulations
require all states to submit implementation plans that, among other
measures, contain either emission limits representing BART for certain
sources constructed between 1962 and 1977, or alternative measures that
provide for greater reasonable progress than BART. 40 CFR 51.308(e).
---------------------------------------------------------------------------

\10\ In American Corn Growers Ass'n v. EPA, 291 F.3d 1 (D.C.
Cir. 2002), the U.S Court of Appeals for the District of Columbia
Circuit issued a ruling vacating and remanding the BART provisions
of the regional haze rule. In 2005, we issued BART guidelines to
address the court's ruling in that case. See 70 FR 39104 (July 6,
2005).
---------------------------------------------------------------------------

On July 6, 2005, we published the Guidelines for BART
Determinations Under the Regional Haze Rule at Appendix Y to 40 CFR
Part 51 (``BART Guidelines'') to assist states in determining which of
their sources should be subject to the BART requirements and in
determining appropriate emission limits for each applicable source. 70
FR 39104. In making a BART determination for a fossil fuel-fired
electric generating plant with a total generating capacity in excess of
750 megawatts (MW), a state must use the approach set forth in the BART
Guidelines. A state is encouraged, but not required, to follow the BART
Guidelines in making BART determinations for other types of sources;
however, all subject to BART sources are required to comply with the
five BART factors (or steps) (40 CFR 51.308(e)(1)(ii)(A)).
The process of establishing BART emission limitations can be
logically broken down into three steps: First, states identify those
sources that meet the definition of ``BART-eligible source'' set forth
in 40 CFR 51.301; \11\ second, states determine whether each identified
source ``emits any air pollutant which may reasonably be anticipated to
cause or contribute to any impairment of visibility in any such area''
(a source that fits this description is ``subject to BART,'') and;
third, for each source subject to BART, states then identify the
appropriate type and the level of control for reducing emissions.
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\11\ BART-eligible sources are those sources that have the
potential to emit 250 tons or more of a visibility-impairing air
pollutant, were put in place between August 7, 1962 and August 7,
1977, and whose operations fall within one or more of 26
specifically listed source categories.
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States must address all visibility-impairing pollutants emitted by
a source in the BART determination process. The most significant
visibility impairing pollutants are SO2, NOX, and
PM. We have stated that states should use their best judgment in
determining whether VOC or ammonia compounds impair visibility in Class
I areas.
Under the BART Guidelines, states may select an exemption threshold
value for their BART modeling, below which a BART-eligible source would

[[Page 11844]]

not be expected to cause or contribute to visibility impairment in any
Class I area. The state must document this exemption threshold value in
the SIP and must state the basis for its selection of that value.
States have three options for exempting a BART-eligible source from the
BART requirements, including dispersion modeling demonstrating that the
source cannot reasonably be anticipated to cause or contribute to
visibility impairment in a Class I area, use of model plants to exempt
sources with common characteristics, and cumulative modeling to show
that no sources in Louisiana are subject to BART. Any source with
emissions that model above the threshold value would be subject to a
BART determination review. The BART Guidelines acknowledge varying
circumstances affecting different Class I areas. States should consider
the number of emission sources affecting the Class I areas at issue and
the magnitude of the individual sources' impacts. Any exemption
threshold set by the state should not be higher than 0.5 dv. See also,
40 CFR part 51, Appendix Y, section III.A.1.
In their SIPs, states must identify potential BART sources,
described as ``BART-eligible sources'' in the RHR, and document their
BART control determination analyses. The term ``BART-eligible source''
used in the BART Guidelines means the collection of individual emission
units at a facility that together comprises the BART-eligible source.
In making BART determinations, section 169A(g)(2) of the CAA requires
that states consider the following factors: (1) The costs of
compliance; (2) the energy and non-air quality environmental impacts of
compliance; (3) any existing pollution control technology in use at the
source; (4) the remaining useful life of the source; and (5) the degree
of improvement in visibility which may reasonably be anticipated to
result from the use of such technology. States are free to determine
the weight and significance to be assigned to each factor. See, 40 CFR
51.308(e)(1)(ii).
A RH SIP must include source-specific BART emission limits and
compliance schedules for each source subject to BART (See, CAA section
169A(b)(2), 40 CFR 51.308(e), and 64 FR 35714, 35741). Once a state has
made its BART determination, the BART controls must be installed and in
operation as expeditiously as practicable, but no later than five years
after the date of our approval of the RH SIP. CAA section 169(g)(4) and
40 CFR 51.308(e)(1)(iv). In addition to what is required by the RHR,
general SIP requirements mandate that the SIP must also include all
regulatory requirements related to monitoring, recordkeeping, and
reporting for the BART controls on the source. See, CAA section 110(a).
As noted above, the RHR allows states to implement an alternative
program in lieu of BART so long as the alternative program can be
demonstrated to achieve greater reasonable progress toward the national
visibility goal than would BART. Under regulations issued in 2005
revising the RH program, the EPA made just such a demonstration for the
CAIR. See, 70 FR 39104 (July 6, 2005). The EPA's regulations provide
that states participating in the CAIR cap-and-trade program under 40
CFR part 96 pursuant to an EPA-approved CAIR SIP or which remain
subject to the CAIR FIP in 40 CFR part 97 need not require affected
BART-eligible EGUs to install, operate, and maintain BART for emissions
of SO2 and NOX. See, 40 CFR 51.308(e)(4). Because
the CAIR did not address direct emissions of PM, states were still
required to conduct a BART analysis for PM emissions from EGUs subject
to BART for that pollutant. The CAIR required controls of both
SO2 and NOX in Louisiana. Challenges to the CAIR,
however, resulted in the remand of the rule to the EPA. See, North
Carolina v. EPA, 550 F.3d 1176 (DC Cir. 2008). The EPA issued the
Transport Rule in 2011 to address the interstate transport of
NOX and SO2 in the eastern United States. See, 76
FR 48208 (August 8, 2011). On December 30, 2011, the EPA proposed to
find that the trading programs in the Transport Rule would achieve
greater reasonable progress towards the national goal than would BART
in the states in which the Transport Rule applies. 76 FR 82219. Based
on this proposed finding, the EPA also proposed to revise the RHR to
allow states to substitute participation in the trading programs under
the Transport Rule for source-specific BART. The transport rule
requires control of NOX during the ozone season in
Louisiana. It does not, however, require control of SO2. The
EPA has not taken final action on that rule.

E. Long-Term Strategy (LTS)

Consistent with the requirement in section 169A(b) of the CAA that
states include in their RH SIP a 10- to 15-year strategy for making
reasonable progress, 40 CFR 51.308(d)(3) of the RHR requires that
states include a LTS in their RH SIPs. The LTS is the compilation of
all control measures a state will use during the implementation period
of the specific SIP submittal to meet any applicable RPGs. The LTS must
include ``enforceable emissions limitations, compliance schedules, and
other measures as necessary to achieve the reasonable progress goals''
for all Class I areas within, or affected by emissions from, the state.
40 CFR 51.308(d)(3).
When a state's emissions are reasonably anticipated to cause or
contribute to visibility impairment in a Class I area located in
another state, the RHR requires the impacted state to coordinate with
the contributing states in order to develop coordinated emissions
management strategies. 40 CFR 51.308(d)(3)(i). Also, a state with a
Class I area impacted by emissions from another state must consult with
such contributing state, (id.) and must also demonstrate that it has
included in its SIP all measures necessary to obtain its share of
emission reductions needed to meet the reasonable progress goals for
the Class I area. Id. at (d)(3)(ii). The RPOs have provided forums for
significant interstate consultation, but additional consultations
between states may be required to sufficiently address interstate
visibility issues. This is especially true where two states belong to
different RPOs.
States should consider all types of anthropogenic sources of
visibility impairment in developing their LTS, including stationary,
minor, mobile, and area sources. At a minimum, states must describe how
each of the following seven factors listed below are taken into account
in developing their LTS: (1) Emission reductions due to ongoing air
pollution control programs, including measures to address RAVI; (2)
measures to mitigate the impacts of construction activities; (3)
emissions limitations and schedules for compliance to achieve the RPG;
(4) source retirement and replacement schedules; (5) smoke management
techniques for agricultural and forestry management purposes including
plans as currently exist within the state for these purposes; (6)
enforceability of emissions limitations and control measures; and (7)
the anticipated net effect on visibility due to projected changes in
point, area, and mobile source emissions over the period addressed by
the LTS. 40 CFR 51.308(d)(3)(v).

F. Coordinating Regional Haze and Reasonably Attributable Visibility
Impairment (RAVI)

As part of the RHR, we revised 40 CFR 51.306(c) regarding the LTS
for RAVI to require that the RAVI plan must provide for a periodic
review and SIP revision not less frequently than every three years
until the date of submission of the state's first plan addressing RH
visibility impairment, which was due December 17, 2007, in accordance
with

[[Page 11845]]

40 CFR 51.308(b) and (c). On or before this date, the state must revise
its plan to provide for review and revision of a coordinated LTS for
addressing RAVI and RH, and the state must submit the first such
coordinated LTS with its first RH SIP. Future coordinated LTS and
periodic progress reports evaluating progress towards RPGs, must be
submitted consistent with the schedule for SIP submission and periodic
progress reports set forth in 40 CFR 51.308(f) and (g), respectively.
The periodic review of a state's LTS must report on both RH and RAVI
and must be submitted to us as a SIP revision.

G. Monitoring Strategy and Other SIP Requirements

40 CFR 51.308(d)(4) of the RHR includes the requirement for a
monitoring strategy for measuring, characterizing, and reporting of RH
visibility impairment that is representative of all mandatory Class I
Federal areas within the state. The strategy must be coordinated with
the monitoring strategy required in 40 CFR 51.305 for RAVI. Compliance
with this requirement may be met through ``participation'' in the
IMPROVE network, i.e., review and use of monitoring data from the
network. The monitoring strategy is due with the first RH SIP, and it
must be reviewed every five years. The monitoring strategy must also
provide for additional monitoring sites if the IMPROVE network is not
sufficient to determine whether RPGs will be met.
The SIP must also provide for the following:
Procedures for using monitoring data and other information
in a state with mandatory Class I areas to determine the contribution
of emissions from within the state to RH visibility impairment at Class
I areas both within and outside the state;
Procedures for using monitoring data and other information
in a state with no mandatory Class I areas to determine the
contribution of emissions from within the state to RH visibility
impairment at Class I areas in other states;
Reporting of all visibility monitoring data to the
Administrator at least annually for each Class I area in the state, and
where possible, in electronic format;
Developing a statewide inventory of emissions of
pollutants that are reasonably anticipated to cause or contribute to
visibility impairment in any Class I area. The inventory must include
emissions for a baseline year, emissions for the most recent year for
which data are available, and estimates of future projected emissions.
A state must also make a commitment to update the inventory
periodically; and
Other elements, including reporting, recordkeeping, and
other measures necessary to assess and report on visibility.
The RHR requires control strategies to cover an initial
implementation period extending to the year 2018, with a comprehensive
reassessment and revision of those strategies, as appropriate, every 10
years thereafter. Periodic SIP revisions must meet the core
requirements of 40 CFR 51.308(d) with the exception of BART. The
requirement to evaluate sources for BART applies only to RH SIPs that
address the first implementation period. See, 40 CFR 51.308(f).
Facilities subject to BART must continue to comply with the BART
provisions of 40 CFR 51.308(e), as noted above. Periodic SIP revisions
will assure that the statutory requirement of reasonable progress will
continue to be met.

H. Coordination With Federal Land Managers

The RHR requires that states consult with FLMs before adopting and
submitting their SIPs. 40 CFR 51.308(i). States must provide FLMs an
opportunity for consultation, in person and at least 60 days prior to
holding any public hearing on the SIP. This consultation must include
the opportunity for the FLMs to discuss their assessment of impairment
of visibility in any Class I area and to offer recommendations on the
development of the RPGs and on the development and implementation of
strategies to address visibility impairment. Further, a state must
include in its SIP a description of how it addressed any comments
provided by the FLMs. Finally, a SIP must provide procedures for
continuing consultation between the state and FLMs regarding the
state's visibility protection program, including development and review
of SIP revisions, five-year progress reports, and the implementation of
other programs having the potential to contribute to impairment of
visibility in Class I areas.

IV. Our Analysis of Louisiana's Regional Haze SIP

A. Identification of Affected Class I Areas

As required by 40 CFR 51.308(d) of the RHR, the State of Louisiana
has identified one Class I area within its borders, Breton National
Wilderness Area (Breton NWA, or Breton). Part of a long chain of
barrier islands, the area comprises a small part of the Breton National
Wildlife Refuge located in the Breton Sound off the southeast coast of
Louisiana. Breton NWA was identified by the LDEQ in its SIP. The FLM
for Breton NWA is the U.S. Fish and Wildlife Service (USFWS) a bureau
within the U.S. Department of Interior. The Louisiana RH SIP
establishes RPGs for Breton and a LTS to achieve these goals within the
first RH implementation period ending in 2018.
In developing its SIP, the LDEQ also considered whether Louisiana
emissions from Louisiana sources impact visibility at Class I areas
outside of the state and determined that Louisiana emissions do not
cause or contribute to visibility impairment at Class I areas outside
the State. Class I areas outside of Louisiana that were considered by
the LDEQ included the 14,460 acre Caney Creek Wilderness Area in
southwest Arkansas. In other parts of its SIP, the LDEQ does examine
the impact of Louisiana's emissions on the visibility at other Class I
areas as well.
We propose to find that the LDEQ correctly identified the Breton
Class I area in Louisiana, and other Class I areas outside of its
borders that may be impacted by emissions from Louisiana sources.

B. Determination of Baseline, Natural and Current Visibility Conditions

As required by 40 CFR 51.308(d)(2)(i) of the RHR and in accordance
with the EPA's Guidance for Estimating Natural Visibility Conditions
Under the Regional Haze Rule, (``Visibility Guidance''),\12\ the LDEQ
calculated baseline/current\13\ and natural visibility conditions for
Breton NWA on the most impaired and least impaired days, as summarized
below (and further described in the TSD).
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\12\ Guidance for Estimating Natural Visibility Conditions Under
the Regional Haze Rule, EPA-454/B-03-005, September 2003.
\13\ As this is the first RH SIP submittal, the calculated
baseline visibility condition and the current visibility condition
will be the same. We expect that subsequent RH SIP submittals will
reflect different calculated numbers for baseline and current
visibility conditions due to the change in conditions.
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1. Estimating Natural Visibility Conditions
Natural background visibility, as defined in the Visibility
Guidance, is estimated by calculating the expected light extinction
using default estimates of natural concentrations of fine particle
components adjusted by site-specific estimates of humidity. This
calculation uses the IMPROVE equation, which is a formula for
estimating light extinction from the estimated natural

[[Page 11846]]

concentrations of fine particle components (or from components measured
by the IMPROVE monitors). As documented in the Visibility Guidance, the
EPA allows states to use ``refined'' or alternative approaches to the
Visibility Guidance to estimate the values that characterize the
natural visibility conditions of Class I areas. One alternative
approach is to develop and justify the use of alternative estimates of
natural concentrations of fine particle components. Another alternative
is to use the ``new IMPROVE equation'' that was adopted for use by the
IMPROVE Steering Committee in December 2005.\14\ The purpose of this
refinement to the ``old IMPROVE equation'' is to provide more accurate
estimates of the various factors that affect the calculation of light
extinction.
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\14\ The IMPROVE program is a cooperative measurement effort
governed by a steering committee composed of representatives from
Federal agencies (including the EPA and FLMs) and RPOs. The IMPROVE
monitoring program was established in 1985 to aid the creation of
Federal and State implementation plans for the protection of
visibility in Class I areas. One of the objectives of IMPROVE is to
identify chemical species and emission sources responsible for
existing anthropogenic visibility impairment. The IMPROVE program
has also been a key participant in visibility-related research,
including the advancement of monitoring instrumentation, analysis
techniques, visibility modeling, policy formulation and source
attribution field studies.
---------------------------------------------------------------------------

The LDEQ opted to use the new IMPROVE equation to calculate the
``refined'' natural visibility conditions. For Breton NWA, the LDEQ
used the new IMPROVE equation to calculate the ``refined'' natural
visibility value for the 20 percent worst days to be 11.93 deciviews
and for the 20 percent best days to be 4.25 deciviews. We reviewed the
LDEQ's estimates of the natural visibility conditions for Breton NWA
and are proposing to find them acceptable using the new IMPROVE
equation.
The new IMPROVE equation takes into account the most recent review
of the science \15\ and it accounts for the effect of particle size
distribution on light extinction efficiency of sulfate
(SO4), nitrate (NO3), and organic carbon. It also
adjusts the mass multiplier for organic carbon (particulate organic
matter) by increasing it from 1.4 to 1.8. New terms are added to the
equation to account for light extinction by sea salt and light
absorption by gaseous nitrogen dioxide. Site-specific values are used
for Rayleigh scattering (scattering of light due to atmospheric gases)
to account for the site-specific effects of elevation and temperature.
Separate relative humidity enhancement factors are used for small and
large size distributions of ammonium sulfate and ammonium nitrate and
for sea salt. The terms for the remaining contributors, elemental
carbon (light-absorbing carbon), fine soil, and coarse mass terms, do
not change between the original and new IMPROVE equations.
---------------------------------------------------------------------------

\15\ The science behind the revised IMPROVE equation is
discussed in Chapter 5 and Appendix B of the LDEQ's TSD for the
Louisiana RH SIP and in numerous published papers. See for example:
Hand, J.L., and Malm, W.C., 2006, Review of the IMPROVE Equation for
Estimating Ambient Light Extinction Coefficients--Final Report.
March 2006. Prepared for Interagency Monitoring of Protected Visual
Environments (IMPROVE), Colorado State University, Cooperative
Institute for Research in the Atmosphere, Fort Collins, Colorado,
available at https://vista.cira.colostate.edu/improve/publications/GrayLit/016_IMPROVEeqReview/IMPROVEeqReview.htm and Pitchford,
Marc., 2006, Natural Haze Levels II: Application of the New IMPROVE
Algorithm to Natural Species Concentrations Estimates. Final Report
of the Natural Haze Levels II Committee to the RPO Monitoring/Data
Analysis Workgroup. September 2006, available at https://vista.cira.colostate.edu/improve/Publications/GrayLit/029_NaturalCondII/naturalhazelevelsIIreport.ppt.
---------------------------------------------------------------------------

2. Estimating Baseline Visibility Conditions
As required by 40 CFR 51.308(d)(2)(i) of the RHR and in accordance
with the Visibility Guidance, the LDEQ calculated baseline visibility
conditions for Breton NWA. The baseline condition calculation begins
with the calculation of light extinction, using the IMPROVE equation.
The IMPROVE equation sums the light extinction\16\ resulting from
individual pollutants, such as sulfates and nitrates. As with the
natural visibility conditions calculation, the LDEQ chose to use the
new IMPROVE equation.
---------------------------------------------------------------------------

\16\ The amount of light lost as it travels over one million
meters. The haze index, in units of deciviews (dv), is calculated
directly from the total light extinction, bext expressed
in inverse megameters (Mm^-1), as follows: HI = 10
ln(bext/10).
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The period for establishing baseline visibility conditions is 2000-
2004, and baseline conditions must be calculated using available
monitoring data. 40 CFR 51.308(d)(2). The Breton IMPROVE monitor did
not meet the data capture requirements of the RHR for the 2000-2004
monitoring period; however, data from a nearby monitoring site, the
Gulfport SEARCH site, was used to supplement the Breton monitoring
data. We found the use of this data to be acceptable. The Breton
monitor was subsequently destroyed in 2005 by Hurricane Katrina and
since replaced and relocated. The LDEQ calculated the baseline
conditions at the Breton Class I area as 25.73 deciviews on the 20
percent worst days, and 13.12 deciviews on the 20 percent best days. We
have reviewed the LDEQ's estimation of baseline visibility conditions
at Breton and are proposing to find these estimates acceptable.
3. Natural Visibility Impairment
To address 40 CFR 51.308(d)(2)(iv)(A), the LDEQ also calculated the
number of deciviews by which baseline conditions exceed natural
visibility conditions for the best and worst days at Breton NWA. For
the 20 percent worst days, the LDEQ calculated the number of deciviews
by which baseline conditions exceed natural visibility conditions to be
13.80 dv (baseline of 25.73 dv, minus natural conditions of 11.93 dv).
For the 20 percent best days at Breton, the baseline conditions exceed
natural visibility conditions by 8.87 dv (baseline of 13.12 dv, minus
natural conditions of 4.25 dv). We have reviewed the LDEQ's estimates
of the natural visibility impairment at Breton NWA and are proposing to
find these estimates acceptable.
4. Uniform Rate of Progress
In setting the RPGs, the LDEQ analyzed and determined the URP
needed to reach natural visibility conditions by the year 2064. In so
doing, the LDEQ compared the baseline visibility conditions to the
natural visibility conditions in Breton NWA and determined the URP
needed in order to attain natural visibility conditions by 2064. The
LDEQ constructed the URP consistent with the requirements of the RHR
and our 2003 Tracking Progress Guidance by plotting a straight
graphical line from the baseline level of visibility impairment for
2000-2004 to the level of visibility conditions representing no
anthropogenic impairment in 2064 for Breton NWA.
Using a baseline visibility value of 25.73 dv and a ``refined''
natural visibility value of 11.93 dv for the 20 percent worst days for
Breton, the LDEQ calculated the URP to be approximately 0.23 dv per
year. This results in a total reduction of 13.80 dv that are necessary
to reach the natural visibility condition of 11.93 dv in 2064 for
Breton NWA. The URP results in a visibility improvement of 3.22 dv for
Breton for the period covered by this SIP revision submittal (up to and
including 2018).

Table 1--Summary of Uniform Rate of Progress
------------------------------------------------------------------------
Visibility metric Breton NWA
------------------------------------------------------------------------
Baseline Conditions....................... 25.73 dv.
Natural Visibility........................ 11.93 dv.
Total Improvement by 2064................. 13.80 dv.
Improvement for this SIP by 2018.......... 3.22 dv.

[[Page 11847]]

Uniform Rate of Progress.................. 0.23 dv/yr.
------------------------------------------------------------------------

We are proposing to find that LDEQ has appropriately calculated the
URP and has satisfied the requirement in 40 CFR 51.308(d)(1)(i)(B).

C. Evaluation of Louisiana's Reasonable Progress Goals

We are proposing to find that Louisiana's RPGs meet some federal
requirements, but also contain some deficiencies. This section
discusses three RPG requirements as they relate to the LA RH SIP: (1)
Establishment of the RPG; (2) reasonable progress four factor analysis;
and (3) reasonable progress consultation. See the TSD for a more
detailed discussion of RPG requirements and the LA RH SIP for RPGs. The
establishment of RPGs and the reasonable progress four factor analysis
for Louisiana are linked to the EPA's CAIR and the Transport Rule. As
discussed in the Executive Summary above, in an earlier proposed action
the EPA proposed a limited disapproval of the LA RH SIP (76 FR 82219).
As discussed in that proposal, a number of states, including Louisiana,
fully consistent with the EPA's regulations at the time, relied on the
trading programs of the CAIR to satisfy the BART requirement and the
requirement for a long-term strategy sufficient to achieve the state-
adopted reasonable progress goals. Louisiana also relied on the CAIR in
assessing the need for emissions reductions from EGUs to ensure
reasonable progress. As a result, Louisiana will have to consider
whether EGUs previously covered by the CAIR, whether subject to BART or
not, should be controlled to ensure reasonable progress.\17\
---------------------------------------------------------------------------

\17\ Because the Transport Rule will result in greater emission
reductions overall than the CAIR, the EPA did not include the RPGs
set by affected states in its December 30, 2011 limited disapproval
(Transport Better than BART proposal, December 30, 2011, 76 FR
82219).
---------------------------------------------------------------------------

We are proposing to find that the State's RPGs are deficient given
our proposed finding, discussed in section IV.D. below, that certain of
Louisiana's BART determinations are not fully approvable. In general,
the State followed the requirements of 40 CFR 51.308(d)(1), but these
goals do not reflect appropriate emissions reductions from BART.
Establishment of the Reasonable Progress Goals
The LDEQ adopted the CENRAP modeled 2018 visibility conditions as
the RPGs for Breton NWA Class I area. The LDEQ established a RPG of
22.51 dv for Breton for 2018 for the 20% worst days. This represents a
3.22 dv improvement over a baseline of 25.73 dv.
The CENRAP's projections for 2018 for the 20% worst and best days
for Breton, which Louisiana used in developing its RPGs for Breton, are
shown in the LA RH SIP Appendix B titled, ``Technical Support Document
for CENRAP Emissions and Air Quality Modeling to Support Regional Haze
State Implementation Plans.'' \18\ A comparison of the LDEQ's predicted
rate of progress to the glide path on the 20% worst days shows that,
with projected control of Louisiana sources, Louisiana will be very
close to the glide path throughout the first planning period.\19\ The
CENRAP modeling shows that for the 20% best days, there would be a 0.90
dv improvement in visibility from the baseline for Breton. See, 40 CFR
51.308(d)(1).
---------------------------------------------------------------------------

\18\ The TSD for CENRAP Emissions and Air Quality Modeling to
Support RH State Implementation is found in Appendix B of the
Louisiana RH SIP.
\19\ See the LA RH SIP submittal, Chapter 8, Section 8.5, Figure
8.2.
---------------------------------------------------------------------------

LDEQ's Reasonable Progress ``Four Factor'' Analysis
In establishing RPGs for a Class I area, the State is required by
CAA Sec. 169A(g)(1) and 40 CFR 51.308(d)(1)(i)(A) to ``[c]onsider the
costs of compliance, the time necessary for compliance, the energy and
non-air quality environmental impacts of compliance, and the remaining
useful life of any potentially affected sources, and include a
demonstration showing how these factors were taken into consideration
in selecting the goal.'' In addition to this explicit statutory
requirement, the RHR also establishes an analytical requirement to
ensure that each state considers carefully the suite of emission
reduction measures necessary to attain the URP. The RHR provides that
the EPA will consider both the state's consideration of the four
factors in 40 CFR 51.308(d)(1)(i)(A) and its analysis of the URP ``[i]n
determining whether the State's goal for visibility improvement
provides for reasonable progress.'' 40 CFR 51.308(d)(1)(iii). As
explained in the preamble to the RHR, the URP analysis was adopted to
ensure that states use a common analytical framework and to ensure an
informed and equitable decision making process to ensure a transparent
process that would, among other things, ensure that the public would be
provided with the information necessary to understand the emission
reductions needed, the costs of such measures, and other factors
associated with improvements in visibility. 64 FR at 35733.
In establishing its RPGs for 2018 for the 20% worst days, the LDEQ
relied on the improvements in visibility that were anticipated to
result from federal, State, and local control programs that were either
currently in effect or with mandated future-year emission reduction
schedules that predate 2018, including BART emission limitations
projected by the LDEQ. Based on the emissions reductions from these
measures, the CENRAP modeled the projected visibility conditions
anticipated at each Class I area in the region in 2018, and the LDEQ
used these results to establish RPGs.
States do have discretion in setting RPGs, but are required to do
more than establish RPGs that meet or exceed the URP. The LDEQ did
provide an analysis that considered the four statutory factors under 40
CFR 51.308(d)(1)(i)(A) to evaluate the potential of controlling certain
sources or source categories for addressing visibility impacts from
man-made sources within its borders.
The LDEQ provides an analysis in Appendix H, CENRAP Regional
Control Strategy Analysis Plan, showing that the URP goals are
reasonable. In addition, the LDEQ provided a discussion of the four
factors required for this analysis: costs of compliance, time for
compliance, energy and non-air quality environmental impacts of
compliance, and remaining useful life of any potentially affected
sources in Chapter 10 of the RH SIP.
In identifying and prioritizing potential regional haze control
strategies, the LDEQ referenced the Alpine Geophysics report for the
CENRAP. Table 7-4 of this report outlines potential facilities that
could be considered when developing a subregional SO2
control strategy with the associated approximate costs (see the LA RH
SIP Appendix H). TSD Table 4 shows the facilities in Louisiana
identified in the Alpine report that potentially significantly impact
visibility at Breton for which controls may be available. The LDEQ
found that significant reductions would be achieved from consent
decrees and the CAIR, and further examined the sources in Louisiana
identified in the Alpine report for potential reductions. More
information about the state's discussion

[[Page 11848]]

is available in section IV.C of the TSD and in the LA RH SIP submittal.
Reasonable Progress Consultation
The LDEQ worked with the Visibility Improvement--States and Tribal
Associations of the Southeast (VISTAS) and the CENRAP states to jointly
develop the consultation strategy. The LDEQ used the CENRAP as the main
vehicle for facilitating collaboration with FLMs and other states in
developing its RH SIP. The LDEQ was able to use the CENRAP generated
products, such as regional photochemical modeling results and
visibility projections, and source apportionment modeling to assist in
identifying neighboring states' contributions to the visibility
impairment at Breton NWA.
The LDEQ determined that in addition to Louisiana, the following
states make a contribution to decreased visibility in Louisiana's Class
I area: Mississippi, Alabama, and Florida (see Table 5 of the TSD for
this proposal). The LDEQ conducted consultations in the form of face-
to-face meetings and conference calls. Participants in the consultation
process included states and tribes, the CENRAP and other RPOs, the EPA,
and FLMs. The participating states determined that regional modeling
and other findings based on existing and proposed controls arising from
local, state, and federal requirements indicated that the Class I area
in Louisiana is expected to meet the rate of progress goals for the
first implementation period ending in 2018. The LDEQ determined that
additional emissions reductions from other states were not necessary to
address visibility impairment at Breton for the first implementation
period ending in 2018, and all states participating in its
consultations agreed with this.

D. Evaluation of Louisiana's BART Analyses

BART is an element of Louisiana's LTS for the first implementation
period. As discussed in more detail in section III.D of this proposal,
the BART evaluation process consists of three components: (1) An
identification of all the BART-eligible sources; (2) an assessment of
whether those BART-eligible sources are subject to BART; and (3) a
determination of any BART controls. The LDEQ addressed these steps as
follows:
1. Identification of BART-Eligible Sources
An initial step of a BART evaluation is to identify all the BART-
eligible sources within the state's boundaries. The LDEQ identified the
BART-eligible sources in Louisiana by utilizing the three eligibility
criteria in the BART Guidelines (70 FR 39158) and our regulations (40
CFR 51.301): (1) One or more emission units at the facility fit within
one of the 26 categories listed in the BART Guidelines; (2) the
emission unit(s) began operation on or after August 6, 1962, and was in
existence on August 6, 1977; and (3) potential emissions of any
visibility-impairing pollutant from subject units are 250 tpy or more.
The LDEQ determined that the visibility-impairing pollutants in
Louisiana include SO2, NOX, and PM, using PM less
than 10 microns in diameter (PM10) as an indicator for PM
(LA RH SIP, Chapter 9, p. 36). This is consistent with the RHR (40 CFR
51 Appendix Y, III.A.2). See the TSD for more information.
The LDEQ sent a letter and survey form, together with guidance
materials, requesting information about BART eligibility to every
reporter (1167 facilities) to the emissions inventory for the state
requesting information about BART eligibility. Of the 1167 facilities
contacted, 1165 facilities responded, and reported 76 BART-eligible
facilities. Of the two non-responders, one was found to be out of
business, and the other was determined to have minor emissions. See the
TSD for more information. Each of the 76 BART-eligible facilities is
identified in Table 6 of the TSD. We agree with the LDEQ's
identification of BART-eligible sources.
2. Identification of Sources Subject to BART
The next step of the BART evaluation is to identify those BART-
eligible sources that may reasonably be anticipated to cause or
contribute to any visibility impairment at any Class I area, i.e. those
sources that are subject to BART. The BART Guidelines allow states to
consider exempting some BART-eligible sources from further BART review
because they may not reasonably be anticipated to cause or contribute
to any visibility impairment in a Class I area. Following the
identification of those sources that were determined to be BART
eligible, the LDEQ performed a combination approach to determine
whether BART-eligible sources would cause or contribute to visibility
impairment at Breton. The LDEQ used a combination of an individual
source attribution approach (dispersion modeling), and, for sources
with common characteristics, a model plant approach.\20\ Please see the
TSD and Appendix A of the TSD for more details regarding how sources
were exempted from BART by the LDEQ and our analysis of this modeling.
---------------------------------------------------------------------------

\20\ The ``model plant'' approach can be used to determine
whether a category of sources that share specific characteristics
should be exempted from BART because these sources are not
anticipated to cause or contribute to visibility impairment at a
Class I area. See 40 CFR 51 Appendix Y.III.
---------------------------------------------------------------------------

Louisiana considered each of the 76 BART-eligible facilities
described earlier using the modeling methodologies described below.
Modeling Methodology
The BART Guidelines direct states to address SO2,
NOX, and PM emissions as visibility-impairing pollutants,
and states must exercise their ``best judgment to determine whether
ammonia or VOC emissions from a source are likely to have an impact on
visibility in an area.'' See, 70 FR 39162. As noted above, the LDEQ
determined that the visibility-impairing pollutants in Louisiana are
SO2, NOX, and particulate matter. Louisiana
decided to not consider VOCs and ammonia among visibility-impairing
pollutants for several reasons, as discussed in the TSD. We propose to
accept the State's decision to address only SO2,
NOX, and PM as the visibility impairing pollutants.
Consistent with BART Guidelines, the LDEQ used the CALPUFF modeling
system to determine whether individual sources identified as BART-
eligible were subject to or exempt from BART. For this modeling,
Louisiana considered 76 BART-eligible facilities, as discussed in
section IV.D.1. Based on this analysis, Louisiana identified 27
facilities for further consideration due to visibility impact above a
0.5 dv contribution threshold. These facilities are discussed in the
next section of this action and are identified in Table 7 of the TSD.
We are proposing to find the LDEQ's chosen modeling methodology and
screening approach are acceptable.
For states using modeling to determine the applicability of BART to
single sources, the BART Guidelines note that an important step is to
set a contribution threshold to assess whether the impact of a single
source is sufficient to cause or contribute to visibility impairment at
a Class I area. The BART Guidelines state that, ``[a] single source
that is responsible for a 1.0 deciview change or more should be
considered to `cause' visibility impairment.'' 70 FR 39104, 39161. The
BART Guidelines also state that ``the appropriate threshold for
determining whether a source contributes to

[[Page 11849]]

visibility impairment ``may reasonably differ across states,'' but
``[a]s a general matter, any threshold that you use for determining
whether a source `contributes' to visibility impairment should not be
higher than 0.5 deciviews.'' Id. Further, in setting a contribution
threshold, states should ``consider the number of emissions sources
affecting the Class I areas at issue and the magnitude of the
individual sources' impacts.'' The Guidelines affirm that states are
free to use a lower threshold if they conclude that the location of a
large number of BART-eligible sources in proximity of a Class I area
justifies this approach. Considering the number of sources affecting
Louisiana's Class I area and the magnitude of each source's impact, the
LDEQ used a contribution threshold of 0.5 dv for determining which
sources are subject to BART. We propose to accept the State's selection
of 0.5 dv as the threshold value.
For the 27 facilities referenced above, Louisiana requested that
the facilities provide additional modeling: Screening Modeling and, for
sources that failed the Screening Modeling, Refined Modeling. Those
facilities that the LDEQ requested to conduct this additional modeling
and the results of the individual Screening and Refined Modeling
analyses for each of these sources are shown in Table 7 of the TSD.\21\
Our evaluation of these modeling results showed that there was one
facility, Mosaic Fertilizer Uncle Sam Plant (Mosaic), which had modeled
visibility impacts that exceeded the 0.5 dv contribution threshold, but
which the LDEQ determined was not subject to BART. At the time of the
submittal, the LDEQ's modeling showed that, using then-current permit
maximum hourly emission rates, Mosaic had an operating emissions rate
of 2,250 lbs/hr (maximum) and a significant modeled visibility impact
at Breton of over 0.5 dv. At that time, Mosaic was reviewing
possibilities for future control strategies on the A-Train Sulfuric
Acid Stack that could be expected to reduce SO2 emissions
for the facility. For purposes of performing a refined modeling
analysis and exempting the source from BART requirements, Mosaic
considered potential future emission rates based on future controls,
and used a modeling data input of 258.3 lbs/hr (maximum). Although
future controls were being considered, they were not yet in place. The
RHR states that a source can be exempted if its visibility impacts at
the time the SIP is developed are less than the screening value. See,
70 FR 39118. Because Mosaic's impacts were greater than the screening
value, at that time, the LDEQ should have completed a full five factor
analysis to assure the appropriate BART level of control was
implemented (as discussed in section IV.D.3). Therefore, we propose to
find that the LDEQ erred in exempting the Mosaic facility from BART.
For those facilities for which Screening and Refined Modeling was
provided, with the exception of Mosaic, we propose to approve the
modeling in the LA RH SIP submittal that identifies which sources are
exempt from BART.
---------------------------------------------------------------------------

\21\ The LDEQ provided screening modeling results for all
sources identified as BART-eligible; see Appendix E of the LA RH SIP
submission.
---------------------------------------------------------------------------

Sources Subject to BART
The sources that were not exempt from the BART requirements via
dispersion modeling analyses and/or the use of model plants are subject
to BART. For sources subject to BART in Louisiana, the LDEQ must make a
determination of BART. The LDEQ identified three sources as subject to
BART and we identified one more, Mosaic, as discussed previously in
this proposal. All four of these sources are shown in Table 2.

Table 2--Non-EGU Sources in Louisiana Subject to BART
----------------------------------------------------------------------------------------------------------------
Facility name BART emission units Source category Pollutants evaluated
----------------------------------------------------------------------------------------------------------------
ConocoPhillips Co. Alliance Refinery Various emission points Petroleum Refinery..... SO2
in facility. NOX
PM10
Rhodia, Inc......................... Sulfuric Acid Units 1 Sulfuric Acid.......... SO2
and 2.
Sid Richardson Carbon Company....... Units 1, 2, and 3 Carbon Black........... SO2
flares and dryers 2, 3
and 4.
Mosaic Fertilizer Uncle Sam Plant *. Various emission points Chemical Process None *
in facility *. Facility *.
----------------------------------------------------------------------------------------------------------------
* This facility was identified by EPA as subject to BART.

Louisiana did not submit source-specific BART evaluations for EGUs
in its analysis because the state chose to meet BART requirements for
EGUs for SO2 and NOX by participation in the
CAIR, and because modeling results showed that the PM emissions from
EGUs did not warrant further control. This is discussed further in the
next section.
3. BART Determinations
The next component of a BART evaluation is to perform the BART
analysis. BART is a source-specific control determination, based on
consideration of several factors set out in section 169A(g)(2) of the
CAA. These factors include the costs of compliance and the degree of
improvement in visibility associated with the use of possible control
technologies. The EPA issued BART Guidelines (Appendix Y to Part 51) in
2005 to clarify the BART provisions based on the statutory and
regulatory BART requirements (70 FR 39164). The BART Guidelines
describe the BART analysis as consisting of the following five basic
steps:
Step 1: Identify All Available Retrofit Control
Technologies,
Step 2: Eliminate Technically Infeasible Options,
Step 3: Evaluate Control Effectiveness of Remaining
Control Technologies,
Step 4: Evaluate Impacts and Document the Results, and
Step 5: Evaluate Visibility Impacts.
We note the BART Guidelines provide that states must follow the
guidelines in making BART determinations on a source-by-source basis
for 750 MW power plants but are not required to use the process in the
guidelines when making BART determinations for other types of sources.
States with subject-to-BART units with a generating capacity less than
750 MW are strongly encouraged to follow the BART Guidelines in making
BART determinations, but they are not required to do so. However, the
requirement to perform a BART analysis

[[Page 11850]]

that considers ``the technology available, the costs of compliance, the
energy and nonair quality environmental impacts of compliance, any
pollution control equipment in use at the source, the remaining useful
life of the source, and the degree of improvement in visibility which
may reasonably be anticipated to result from the use of such
technology,'' is found in 40 CFR 51.308(e)(1)(ii)(A) and the RHR, and
applies to all subject-to-BART sources.
For three facilities, ConocoPhillips Co., Rhodia Inc., and Sid
Richardson Carbon Company, the LDEQ submitted a BART analysis under 40
CFR 51.308(e)(1)(ii)(A). For each of these facilities, we propose to
find that the BART analysis satisfies part of the requirements, but
does not satisfy all of the requirements. A summary of our proposed
findings for these facilities is provided below. For more details,
please see our evaluation of the BART determination for each subject-
to-BART unit, in the TSD.
As previously discussed, we are proposing to find that the state
should have identified Mosaic as being subject to BART and made a BART
determination for the source. This is discussed in more detail in
section IV.D.2 of this action.
Also, as discussed in the Executive Summary above, in an earlier
proposed action EPA proposed a limited disapproval of the LA RH SIP (76
FR 82219). EPA's proposed limited disapproval is based on deficiencies
in the LA RH SIP submittal arising from the state's reliance on the
CAIR to meet certain regional haze requirements. States such as
Louisiana that are subject to the requirements of the Transport Rule
trading program only for NOX must still address BART for
EGUs for SO2 and other visibility impairing pollutants. See,
76 FR at 82224. While we proposed on December 30, 2011 to issue a FIP
to address the deficiencies in Louisiana's SIP associated with the BART
requirements for NOX for EGUs, we did not propose a FIP to
address the deficiencies associated with the BART requirements for
SO2. Louisiana also relied on the CAIR in assessing the need
for emissions reductions for SO2 from EGUs to satisfy BART
requirements. Consequently, Louisiana will have to re-evaluate EGUs
with respect to SO2 BART requirements.
a. ConocoPhillips
The ConocoPhillips Alliance Refinery is a petroleum refinery near
Belle Chasse Louisiana and is a subject-to-BART source. On December 5,
2005, ConocoPhillips and the EPA entered into a Consent Decree
(CD).\22\ The BART engineering analysis, provided by ConocoPhillips
utilized emission reductions that are mandated per the CD for the
fluidized catalytic cracker, the process refinery flares and the crude
unit heater. Implementing these control projects per the CD emissions
reductions will result in reducing the overall site visibility impacts.
The visibility improvements resulting from this CD are discussed
further in the TSD. However, the LDEQ did not provide a complete BART
evaluation for these units. The submittal does not analyze controls for
these units using the five steps as required by 40 CFR 51.308(e). Also,
no emissions limits for BART for these units were included in the LA RH
SIP. Therefore, for the units covered by the CD, the LDEQ must provide
BART analyses for the units to meet BART requirements (40 CFR
51.308(e)(1)(ii)(A)).\23\ Also, a unit's BART emissions limits must be
a part of the RH SIP, and therefore the LDEQ must include the BART
emissions limits in the RH SIP through a SIP revision.\24\ We propose
to find that the BART determination for ConocoPhillips Alliance
Refinery is deficient at this time.
---------------------------------------------------------------------------

\22\ Civil Action No. H-05-0285. A copy of this CD is available
in the docket for this rulemaking.
\23\ The EPA recently finalized action approving New Jersey's
BART determinations for the ConocoPhillips Bayway Refinery, which is
subject to the same CD as the ConocoPhillips Alliance Refinery. See
https://www.epa.gov/compliance/resources/cases/civil/caa/conocophillips.html. The proposal for that action explains that the
EPA's approval is based on New Jersey's submittal of a complete BART
evaluation for the subject-to BART units at the facility, and the
fact that these units will be controlled ``based on maximum feasible
controls or a multi-factor analysis.'' 76 FR 49711, at 49721; see
also, 77 FR 19-01. The TSD for that action describes how New
Jersey's submittal included the BART analysis for NOX,
SO2, and PM for the subject-to-BART units at this source
in compliance with 40 CFR 51.308(e)(1)(ii)(A). TSD, pages 27-29,
available at https://www.regulations.gov, Docket number EPA-R02-OAR-
2011-0607.
\24\ The CAA requires RH SIPs to ``to contain such emission
limits * * * necessary to make reasonable progress toward meeting
the national goal. * * *'' CAA 169A(b)(2). The federal regulations
further explain that the state must ``submit an implementation plan
containing emission limits representing BART and schedules for
compliance with BART for each BART-eligible source that may
reasonably be anticipated to cause or contribute to any impairment
of visibility in any mandatory Class I Federal area.'' 40 CFR
51.308(e). Finally, the preamble to the RHR states that ``[t]he SIP
revision must include the emission limitations determined to be BART
for sources subject to BART. * * *'' 64 FR 35714, at 35741.
---------------------------------------------------------------------------

There are several other units subject to BART at the ConocoPhillips
Alliance facility. These include the cooling water tower and gas-fired
heaters. Louisiana provided a BART analysis for these as follows:
cooling water tower for PM and PM10, and process heaters for
NOX. For these units, ConocoPhillips determined, and the
LDEQ agreed that there was not a cost effective control. We are
proposing to accept the LDEQ's BART analysis that no additional
controls are required to meet BART for these units.
For three other units, the emissions of PM, SO2, and
NOX are minimal; so, the potential visibility improvement
from controls on these units is also minimal. These units are the
Product Dock No. 1 MVR Loading, the Product Dock No. 2 MVR Loading, and
Coke Transfer and Storage. For detailed information, see the TSD
section IV.D.3.a.iii and TSD Appendix A. The installation of any
additional controls would likely achieve negligible emissions
reductions, have almost no visibility impact on Breton, and would not
be cost-effective.\25\ We propose to find that the LDEQ's analysis for
these units is adequate to meet BART requirements.
---------------------------------------------------------------------------

\25\ ``Consistent with the CAA and the implementing regulations,
States can adopt a more streamlined approach to making BART
determinations where appropriate. Although BART determinations are
based on the totality of circumstances in a given situation, such as
the distance of the source from a Class I area, the type and amount
of pollutant at issue, and the availability and cost of controls, it
is clear that in some situations, one or more factors will clearly
suggest an outcome. Thus, for example, a State need not undertake an
exhaustive analysis of a source's impact on visibility resulting
from relatively minor emissions of a pollutant where it is clear
that controls would be costly and any improvements in visibility
resulting from reductions in emissions of that pollutant would be
negligible. In a scenario, for example, where a source emits
thousands of tons of SO2 but less than one hundred tons
of NOX, the State could easily conclude that requiring
expensive controls to reduce NOX would not be
appropriate. In another situation, however, inexpensive
NOX controls might be available and a State might
reasonably conclude that NOX controls were justified as a
means to improve visibility despite the fact that the source emits
less than one hundred tons of the pollutant.'' 70 FR 39116.
---------------------------------------------------------------------------

b. Rhodia
The Rhodia Sulfuric Acid plant is located in Baton Rouge. The
Rhodia Sulfuric Acid plant produces sulfuric acid by using two sulfuric
acid production trains, Unit 1 and Unit 2. Unit 1 was constructed in
1953, and at the time of the SIP submittal, had a production rate of
700 tons of sulfuric acid per day (700 tons sulfuric acid/day).
Although Rhodia Unit 1 was constructed outside the dates for BART-
eligibility, the LDEQ identified it as BART-eligible. Therefore, we
treat it as BART-eligible and have included this unit in the subject-
to-BART discussion in this section.\26\ We request comments on whether
this unit should be treated

[[Page 11851]]

as BART-eligible. Unit 2 was constructed in 1968, and has a production
rate of 1500 tons sulfuric acid/day. Therefore, Unit 2 is an ``existing
stationary facility'' for purposes of BART eligibility, as defined in
40 CFR 51.301.
---------------------------------------------------------------------------

\26\ We note it is possible for a source to have been
constructed prior to the BART eligibility timeframe of August 7,
1962 to August 7, 1977, but to have been reconstructed during that
timeframe and thus still BART-eligible. 70 FR 39159-60.
---------------------------------------------------------------------------

Effective July 23, 2007, the EPA, LDEQ and other parties entered
into a CD with Rhodia requiring a scrubber to be installed on each of
the units to control SO2 emissions.\27\ The BART engineering
analysis assumed emission reductions that have since been mandated per
the CD for Units 1 and 2. As stated above, without controls, the BART
screening modeling for Rhodia showed a visibility impact at Breton of
greater than 0.5 dv. Implementing control projects per the CD emissions
reductions will result in reducing the overall site visibility impacts,
and based on modeling with controls the LDEQ expects the visibility
impairment from Rhodia to be below 0.5 dv at Breton. The visibility
improvements resulting from this CD are discussed in the TSD. However,
the LDEQ did not submit a complete BART evaluation for these units. The
submittal does not analyze controls for the units using the five steps
as required by 40 CFR 51.308(e). In order to satisfy BART requirements
for SO2, Louisiana must provide a BART analysis. The LDEQ
may be able to find that the controls required under the CD are among
the most stringent, and therefore, no additional controls would be
required for these units to meet BART. 40 CFR 51 Appendix Y.IV.D.1.9.
Also, the emissions limits for Rhodia's subject-to-BART units were not
included in the RH SIP revision, so the LDEQ must include the BART
emission limits in the RH SIP through a SIP revision.\28\ We propose to
find that the BART determination for Rhodia is deficient at this time.
---------------------------------------------------------------------------

\27\ Civil Action No. 2:07CV134 WL. A copy of this CD is
available in the docket for this rulemaking.
\28\ CAA 169A(b)(2); 40 CFR 51.308(e); and 64 FR 35714, at
35741.
---------------------------------------------------------------------------

The visibility impact due to NOX and PM emissions from
Rhodia's two subject-to-BART units is minimal; so, the potential
visibility improvement from controls on these units is also minimal.
For detailed information, see the TSD section IV.D.3.b and TSD Appendix
B. The installation of any additional controls would likely achieve
negligible emissions reductions, have almost no visibility impact on
Breton, and would not be cost-effective.\25\ We propose to find the
LDEQ's analysis for these pollutants is adequate to meet BART
requirements.
c. Sid Richardson Carbon Company
The Sid Richardson Carbon Company is a subject-to-BART source
located in West Baton Rouge Parish. For the subject-to-BART units at
the Sid Richardson facility, Sid Richardson/LDEQ submitted a BART
engineering analysis. For PM, the LDEQ determined that the high
efficiency fabric filters already in use at the facility are BART. We
propose to find that the state acted within its discretion in making
this determination, and that the PM analyses provided by the LDEQ and
Sid Richardson meet BART requirements.
For NOX, the LA RH SIP Chapter 9 states that the Sid
Richardson engineering analyses included the potential installation of
NOX add-on controls, but it determined that all were
infeasible (there were no demonstrated NOX scrubbing
technologies at any carbon black plants). However, there is not
sufficient information in the LA RH SIP submittal to support the BART
analysis conclusion that no controls are feasible. We propose to find
that the NOX BART determination for Sid Richardson is
deficient at this time.
For SO2, the LA RH SIP Chapter 9 states that the Sid
Richardson engineering analyses included the potential installation of
SO2 add-on controls, but it determined that all were
infeasible (there were no demonstrated SO2 scrubbing
technologies at any carbon black plants). However, Appendix G of the LA
RH SIP submittal reflects that the SO2 evaluation for Sid
Richardson considered four potential approaches and evaluated them for
cost effectiveness: Three add-on controls--caustic scrubbing, wet
limestone scrubbing, and Haldor Topsoe's SNOX process, which is a
process that removes SO2, NOX and PM from flue
gas; the fourth approach would be to limit the sulfur content of the
feedstock oil.\29\ The SIP documentation does not reconcile the cost
analyses provided with the corresponding conclusion of the technical
infeasibility for these same control options. Based on the cost
analysis provided, the installation and use of scrubbers to control
emissions may be well within a range that is cost effective. Also, the
LDEQ indicated that no controls were technically feasible, but the
record does not provide a sufficient basis for this conclusion. There
is not sufficient information in the LA RH SIP submittal to support the
BART analysis conclusion that a scrubber, or other technology, is not
feasible. For these reasons, we propose to find that the SO2
BART determination for Sid Richardson is deficient at this time.
---------------------------------------------------------------------------

\29\ LA RH SIP submittal TSD Appendix G, Environ Report, pg 14.
---------------------------------------------------------------------------

E. Long-Term Strategy

As described in section III.E of this action, the LTS is a
compilation of state-specific control measures relied on by the state
for achieving its RPGs. Louisiana's LTS for the first implementation
period addresses the emissions reductions from federal, state, and
local controls that take effect in the state from the end of the
baseline period starting in 2004 until 2018. The Louisiana LTS was
developed by the LDEQ, in coordination with the CENRAP RPO, through an
evaluation of the following components: (1) Construction of a CENRAP
2002 baseline emission inventory; (2) construction of a CENRAP 2018
emission inventory, including reductions from the CENRAP member state
controls required or expected under federal and state regulations,
(including BART); (3) modeling to determine visibility improvement and
apportion individual state contributions; (4) state consultation; and
(5) application of the LTS factors.
1. Emissions Inventories
40 CFR 51.308(d)(3)(iii) requires that Louisiana document the
technical basis, including modeling, monitoring and emissions
information, on which it relied upon to determine its apportionment of
emission reduction obligations necessary for achieving reasonable
progress in each mandatory Class I Federal area it affects. Louisiana
must identify the baseline emissions inventory on which its strategies
are based. 40 CFR 51.308(d)(3)(iv) requires that Louisiana identify all
anthropogenic sources of visibility impairment considered by the state
in developing its long-term strategy. This includes major and minor
stationary sources, mobile sources, and area sources. Louisiana met
these requirements by relying on technical analyses developed by its
RPO, CENRAP, and approved by all state participants, as described
below.
The emissions inventory used in the RH technical analyses was
developed by the CENRAP with assistance from Louisiana. The LDEQ
provided a statewide emissions inventory for 2002, representing the
mid-point of the 2000-2004 baseline period, and a projected emissions
inventory for 2018, the end of the first 10-year planning period. The
2018 inventory is based on visibility modeling conducted by the CENRAP.
The 2018 emissions inventory was developed by projecting 2002 emissions
and applying reductions expected from

[[Page 11852]]

federal and state regulations affecting the emissions of the
visibility-impairing pollutants NOX, PM, SO2, and
VOCs.
a. Louisiana's 2002 Emission Inventory
The LDEQ and the CENRAP developed an emission inventory for four
inventory source classifications: point, area, non-road and on-road
mobile sources for the baseline year of 2002. Louisiana's 2002
emissions inventory provides estimates of annual emissions for haze
producing pollutants by source category as summarized in Table 3, based
on information in Chapter 7 of Louisiana's RH SIP.

Table 3--Louisiana 2002 Emissions Inventory
[Tons/year]
--------------------------------------------------------------------------------------------------------------------------------------------------------
SO2 NH3 NOX VOCs PM10 PM2.5
--------------------------------------------------------------------------------------------------------------------------------------------------------
Point................................................... 286,050 9,237 312,634 89,025 73,333 60,899
Area.................................................... 81,153 75,381 99,060 124,311 245,162 84,068
Non-road mobile......................................... 14,324 563 117,250 109,598 10,663 9,791
On-road mobile.......................................... 4,653 3,748 15,137 64,643 3,563 2,689
-----------------------------------------------------------------------------------------------
Total............................................... 386,180 88,929 544,081 387,577 332,721 157,447
--------------------------------------------------------------------------------------------------------------------------------------------------------

See the TSD for details on how the 2002 emissions inventory was
constructed. The EPA approved the 2002 emissions inventory on September
3, 2009 (74 FR 45561). We are proposing to find that Louisiana's 2002
emission inventory is acceptable for the purpose of developing the LTS.
b. Louisiana's 2018 Emission Inventory
In constructing Louisiana's 2018 emission inventory, the LDEQ used
a combination of our Economic Growth Analysis System (EGAS 6), our
mobile emissions factor model (MOBILE 6), our off-road emissions factor
model (NONROAD), and the Integrated Planning Model (IPM) for electric
generating units. The CENRAP developed emissions for five inventory
source classifications: Point, area, non-road and on-road mobile
sources, and biogenic sources. The CENRAP used the 2002 emission
inventory, described above, to estimate emissions in 2018. All control
strategies expected to take effect prior to 2018 are included in the
projected emission inventory. Louisiana's 2018 emissions inventory
provides estimates of annual emissions for haze producing pollutants by
source category as summarized in Table 4, based on information in
Chapter 7 of the Louisiana RH SIP.

Table 4--Louisiana's 2018 Emissions Inventory
--------------------------------------------------------------------------------------------------------------------------------------------------------
SO2 NH3 NOX VOCs PM10 PM2.5
--------------------------------------------------------------------------------------------------------------------------------------------------------
Point................................................... 354,087 14,435 269,215 187,741 73,136 60,899
Area.................................................... 87,538 36,896 114,374 117,600 16,936 14,536
Non-road mobile......................................... 11,584 72 106,685 64,294 8,670 7,955
On-road mobile.......................................... 561 5,436 44,806 30,340 1,191 1,191
-----------------------------------------------------------------------------------------------
Total............................................... 453,770 56,839 535,080 399,975 99,933 84,581
--------------------------------------------------------------------------------------------------------------------------------------------------------

See the TSD for details on how the 2018 emissions inventory was
constructed. The CENRAP and LDEQ used this and other state's 2018
emission inventories to construct visibility projection modeling for
2018. We are proposing to find that Louisiana's 2018 emission inventory
is acceptable.
2. Visibility Projection Modeling
The CENRAP performed modeling for the RH LTS for its member states,
including Louisiana. The modeling analysis is a complex technical
evaluation that began with selection of the modeling system. The CENRAP
used (1) the Mesoscale Meteorological Model (MM5) meteorological model,
(2) the Sparse Matrix Operator Kernel Emissions (SMOKE) modeling system
to generate hourly gridded speciated emission inputs, (3) the Community
Multiscale Air Quality (CMAQ) photochemical grid model and (4) the
Comprehensive Air Quality model with extensions (CAMX), as a
secondary corroborative model. The CAMX was also utilized
with its Particulate Source Apportionment Technology (PSAT) tool to
provide source apportionment for both the baseline and future case
visibility modeling.
The photochemical modeling of RH for the CENRAP states for 2002 and
2018 was conducted on the 36-km resolution national regional planning
organization domain that covered the continental U.S., portions of
Canada and Mexico, and portions of the Atlantic and Pacific Oceans
along the east and west coasts. The CENRAP states' modeling was
developed consistent with our guidance.\30\
---------------------------------------------------------------------------

\30\ Guidance on the Use of Models and Other Analyses for
Demonstrating Attainment of Air Quality Goals for Ozone,
PM2.5, and Regional Haze, (EPA-454/B-07-002), April 2007,
located at https://www.epa.gov/scram001/guidance/guide/final-03-pm-rh-guidance.pdf. Emissions Inventory Guidance for Implementation of
Ozone and Particulate Matter National Ambient Air Quality Standards
(NAAQS) and Regional Haze Regulations, August 2005, updated November
2005 (``our Modeling Guidance''), located at https://www.epa.gov/ttnchie1/eidocs/eiguid/, EPA-454/R-05-001.
---------------------------------------------------------------------------

The CENRAP examined the model performance of the regional modeling
for the areas of interest before determining whether the CMAQ model
results were suitable for use in the RH assessment of the LTS and for
use in the modeling assessment. The 2002 modeling efforts were used to
evaluate air quality/visibility modeling for a historical episode--in
this case, for calendar year 2002--to demonstrate the suitability of
the modeling systems for subsequent planning, sensitivity, and
emissions control strategy modeling. Model performance evaluation is
performed by comparing output from

[[Page 11853]]

model simulations with ambient air quality data for the same time
period to determine whether the model's performance is sufficiently
accurate to justify using the model for simulating future conditions.
Once the CENRAP determined the model performance to be acceptable, it
used the model to determine the 2018 RPGs using the current and future
year air quality modeling predictions, and compared the RPGs to the
URP. The results of the CENRAP's visibility projection modeling are
discussed in the section that follows. We are proposing to find that
Louisiana's visibility projection modeling is acceptable.
3. Sources of Visibility Impairment
Where Louisiana causes or contributes to impairment in a mandatory
Class I Federal area, it must demonstrate that it has included in its
SIP all measures necessary to obtain its share of the emission
reductions needed to meet the progress goal for the area. If Louisiana
has participated in a regional planning process, it must ensure it has
included all measures needed to achieve its apportionment of emission
reduction obligations agreed upon through that process.
40 CFR 51.308(d)(3)(ii) requires that, ``Where other states cause
or contribute to impairment in a * * * Class I area, the state must
demonstrate that it has included * * * all measures necessary to obtain
its share of the emissions reductions needed to meet the progress goal
for the area. If the state has participated in a regional planning
process, the state must ensure it has included all measures needed to
achieve its apportionment of emission reduction obligations agreed upon
through that process.''
The CENRAP used CAMX with its PSAT tool to provide
source apportionment by geographic region and major source category.
The pollutants causing the highest levels of light extinction are
associated with the sources causing the most visibility impairment.
a. Sources of Visibility Impairment in the Breton Class I Area
Visibility impairment at Breton in 2002 on the worst 20% days is
primarily (69%) due to point source emissions that contribute 77.7
inverse megameters \31\ (Mm^-1) of the total extinction of
122.1 Mm^-1. The largest contributions come from inside the
state. In 2018, point sources continue to contribute the most to
visibility impairment at Breton, even though this contribution has
decreased substantially. ``The top five contributing source groups to
2018 visibility impairment at [Breton] for the worst 20 percent days
are: Louisiana Elevated Point Sources; Boundary Conditions; \32\ East
Elevated Point Sources; Gulf of Mexico Area Sources; and Louisiana Area
Sources. Gulf of Mexico Area sources include off shore shipping and oil
and gas development emissions.'' \33\ We are proposing to find that
Louisiana's identification of sources of visibility impairment for the
Breton Class I area is acceptable.
---------------------------------------------------------------------------

\31\ An inverse megameter is the direct measurement unit for
visibility impairment data. It is the amount of light scattered and
absorbed as it travels over a distance of one million meters.
Deciviews (dv) can be calculated from extinction data as follows: dv
= 10 x ln (bext(Mm^-1)/10).
\32\ ``Boundary Conditions'' means ``the assumed concentrations
along the later edges of the 36 km modeling domain.'' LA RH SIP
submittal Appendix B, Environ Report, p. 1-16.
\33\ LA RH SIP submittal Appendix B, Environ Report, p. 5-18.
---------------------------------------------------------------------------

b. Louisiana's Contribution to Visibility Impairment in Class I Areas
Outside the State
Table 5 shows the CENRAP CAMx and PSAT modeled contributions (in
percentage of visibility impacts) to total extinction at all Class I
areas from Louisiana sources for 2002 and 2018, respectively. The CAMx
PSAT results were utilized to evaluate the impact of Louisiana emission
sources in 2002 and 2018 on visibility impairment at Class I areas
outside of the state.

Table 5--Percent Contribution From Louisiana Emissions to Total Visibility Impairment at Class I Areas on 20%
Worst Days
----------------------------------------------------------------------------------------------------------------
Class I area State 2002 2018
----------------------------------------------------------------------------------------------------------------
Breton (BRET1).............................. Louisiana..................... 15.75 24.67
Wichita Mountains (WIMO1)................... Oklahoma...................... 3.47 4.83
Caney Creek (CACR1)......................... Arkansas...................... 2.86 4.23
Big Bend NP (BIBE1)......................... Texas......................... 2.79 3.32
Upper Buffalo Wilderness (UPBU1)............ Arkansas...................... 1.80 2.71
Hercules Glades Wilderness (HEGL1).......... Missouri...................... 1.71 2.43
Guadalupe Mountains NP (GUMO1).............. Texas......................... 1.32 1.57
White Mountain Wilderness (WHIT1)........... New Mexico.................... 1.28 1.44
Sipsey Wilderness (SIPS1)................... Alabama....................... 0.96 1.78
Salt Creek (SACR1).......................... New Mexico.................... 0.93 1.07
Mammoth Cave NP (MACA1)..................... Kentucky...................... 0.67 1.19
Seney (SENE1)............................... Michigan...................... 0.54 0.77
Bosque del Apache (BOAP1)................... New Mexico.................... 0.42 0.48
Great Smoky Mountains NP (GRSM1)............ Tennessee..................... 0.40 0.83
Isle Royale NP (ISLE1)...................... Michigan...................... 0.39 0.49
Badlands NP (BADL1)......................... South Dakota.................. 0.36 0.41
Cadiz (CADI1)............................... Kentucky...................... 0.34 0.59
Gila Wilderness (GICL1)..................... New Mexico.................... 0.30 0.37
Bondville (BOND1)........................... Illinois...................... 0.27 0.41
Mingo (MING1)............................... Missouri...................... 0.22 0.33
Bandelier (BAND1)........................... New Mexico.................... 0.21 0.24
San Pedro Parks (SAPE1)..................... New Mexico.................... 0.20 0.22
Wind Cave NP (WICA1)........................ South Dakota.................. 0.14 0.16
Wheeler Peak Wilderness (WHPE1)............. New Mexico.................... 0.14 0.16
----------------------------------------------------------------------------------------------------------------

As shown in the Table above, the largest contribution from
Louisiana sources is at the Wichita Mountains Class I area in Oklahoma
in both 2002 and 2018. Louisiana is also projected to contribute a
small amount of visibility

[[Page 11854]]

degradation at Class I areas in other states as listed in Table 5. This
table summarizes the projected contribution from Louisiana's emissions
on visibility degradation to Class I areas for the 20 percent worst
days in 2002 and 2018, as modeled by the CENRAP.\34\ We are proposing
to find that Louisiana's identification of sources of visibility
impairment for Class I areas outside the state is acceptable.
---------------------------------------------------------------------------

\34\ See Appendix A of the TSD for this proposal for the CENRAP
Emissions and Air Quality Modeling to Support Regional Haze State
Implementation, as well as Appendix B of the LA RH SIP.
---------------------------------------------------------------------------

4. Consultation for Other State's Class I Areas
The LDEQ used the CENRAP as its main vehicle for facilitating
collaboration with FLMs and other states in the CENRAP, and the VISTAS
for other states outside the CENRAP to satisfy its LTS consultation
requirement. This helped the LDEQ and other state agencies analyze
emission apportionments at Class I areas and develop coordinated RH SIP
strategies.
40 CFR 51.308(d)(3)(i) requires that Louisiana consult with other
states if its emissions are reasonably anticipated to contribute to
visibility impairment at that state's Class I area(s), and that
Louisiana consult with other states if those states' emissions are
reasonably anticipated to contribute to visibility impairment at Breton
NWA. The LDEQ's consultations with other states are described in
section IV.C.3 of this action. The CENRAP visibility modeling
demonstrates Louisiana sources are responsible for a visibility
extinction of approximately 3.5 Mm^-1 at Caney Creek on the
worst 20% days for 2002.\26\ The LDEQ consulted with Arkansas as well
as Oklahoma, Texas, Mississippi, Alabama, and Florida whose emissions
have a potential visibility impact at Breton. We are proposing to find
that the LDEQ's consultations satisfy the requirements under 40 CFR
51.308(d)(3)(i).
5. Mandatory Long-Term Strategy Factors
40 CFR 51.308(d)(3)(v) requires that Louisiana consider certain
factors in developing its long-term strategy (the LTS factors). These
include: (a) Emission reductions due to ongoing air pollution control
programs, including measures to address RAVI; (b) measures to mitigate
the impacts of construction activities; (c) emissions limitations and
schedules for compliance to achieve the reasonable progress goal; (d)
source retirement and replacement schedules; (e) smoke management
techniques for agricultural and forestry management purposes including
plans as currently exist within the state for these purposes; (f)
enforceability of emissions limitations and control measures; and (g)
the anticipated net effect on visibility due to projected changes in
point, area, and mobile source emissions over the period addressed by
the long-term strategy. For the reasons outlined below, we are
proposing to find that Louisiana has satisfied some, but not all of the
requirements of 40 CFR 51.308(d)(3)(v). Also, Louisiana will have to
consider whether EGUs previously covered by the CAIR, whether subject
to BART or not, should be controlled to ensure reasonable progress.
a. Reductions Due to Ongoing Air Pollution Programs
In addition to its BART determinations, Louisiana's LTS
incorporates emission reductions due to a number of ongoing air
pollution control programs.
The LDEQ considered the Tier 2 Vehicle Emission Standards in
developing its LTS. Federal Tier 2 Vehicle Emission Standards for
passenger cars and light trucks were fully implemented in 2009 and
similar rules for heavy trucks were also implemented by 2009. These
federal standards will result in reductions of emissions of PM, ozone
precursors, and non-methane organic compounds. In developing its LTS,
the LDEQ also considered the Highway Diesel and Nonroad Diesel Rules,
which mandated the use of lower sulfur fuels in diesel engines
beginning in 2006 for highway diesel fuel, and 2007 for non-road diesel
fuel. These federal rules have resulted in more effective control of PM
emissions from diesel engines by allowing the installation of control
devices that were technically infeasible for fuels with higher sulfur
content. In addition, the state will rely on federal consent decrees
and implementation of the 2008 ozone standard.
As noted in the EPA's separate notice proposing revisions to the
RHR (76 FR 82219) a number of states, including Louisiana, fully
consistent with the EPA's regulations at the time, relied on the
trading programs of the CAIR to satisfy the BART requirement and the
requirement for a long-term strategy sufficient to achieve the state-
adopted reasonable progress goals. In that notice, we proposed a
limited disapproval of Louisiana's long-term strategy and, for that
reason, we are not taking action on the long-term strategy in this
proposal insofar as Louisiana's RH SIP relied on the CAIR. The docket
for that rulemaking is available at Docket ID No. EPA-HQ-OAR-2011-0729.
Louisiana's LTS is also deficient because it relied on deficient non-
EGU BART determinations as discussed in section IV.D of this action.
b. Measures To Mitigate the Impacts of Construction Activities
40 CFR 51.308(d)(3)(v)(B) requires that Louisiana consider measures
to mitigate the impacts of construction activities in developing its
LTS. Construction-related activities are believed to be a small
contributor to fine and coarse particulates in Louisiana. The LDEQ
notes that Louisiana may require visibility monitoring in any Class I
area where preconstruction and post-construction of any new source or
major modification may have an adverse impact on visibility in any
Class I area (LAC 33:III.504.E.3.b). In spite of a great deal of
construction activity from the recovery from Hurricanes Katrina and
Rita, no measurable impacts on visibility have been monitored from this
activity. We are proposing to find that Louisiana satisfies this
component of LTS.
c. Emissions Limitations and Schedules of Compliance
40 CFR 51.308(d)(3)(v)(C) requires that in developing its LTS,
Louisiana consider emissions limitations and schedules of compliance to
achieve the RPGs. As discussed in section IV.D.3 of this proposal, the
SIP does not yet contain emission limits and schedules of compliance
for those sources subject to BART. The BART emission limits established
by the LDEQ are an element of the LTS, and because we are proposing to
find that the relevant portion of the LDEQ's BART determinations are
deficient, we propose to find that this element of the LTS does not
satisfy the federal requirements.
d. Source Retirement and Replacement Schedules
40 CFR 51.308(d)(3)(v)(D) requires that Louisiana consider source
retirement and replacement schedules in developing its LTS. The LDEQ
adequately addressed how it considered source retirement and
replacement schedules in the development of its LTS. Louisiana's LTS
includes the promulgation of new rules for retrofit technology for
existing equipment to meet requirements for new NAAQS, which will also
provide visibility benefits. We are proposing to find that the LDEQ
properly addressed the requirements of 40 CFR 51.308(d)(3)(v)(D) in the
development of its LTS.

[[Page 11855]]

e. Agricultural and Forestry Smoke Management Techniques
40 CFR 51.308(d)(3)(v)(E) requires that Louisiana consider smoke
management techniques for agricultural and forestry management purposes
in developing its LTS. Where smoke impacts from fire are identified as
an important contributor to regional haze, smoke management programs
should be a key component of regional and State regional haze planning
efforts and long-term strategies (64 FR 35736).
The EPA encourages the development of smoke management programs
between air regulators and land managers as a means to manage the
impacts of wildland and prescribed burning. The sources of information
described above, as well as other developmental efforts currently
underway, provide effective, flexible approaches to smoke management.
The LDEQ considered smoke management techniques for the purposes of
agricultural and forestry management in its LTS. Chapter 13 of Title 33
of the LAC contains a general prohibition on ``open burning of refuse,
garbage, trade waste, or other waste material.'' Although the LDEQ does
not have the jurisdiction or authority to make any rule, regulation,
recommendations, or determination with respect to agricultural burning
or controlled burns of pastureland, marshland, or timberland, the
Louisiana Department of Agriculture and Forestry (LDAF) does have the
authority. The LDAF, in consultation with the LDEQ, is working to
develop a SMP that includes measures that can be taken to reduce
residual smoke from burning activities as well as a process to evaluate
potential smoke impacts at sensitive receptors and guidelines for
scheduling fires such that exposure of sensitive populations is
minimized and visibility impacts in Class I areas are reduced. Because
visibility impacts from smoke are significant in Louisiana, we propose
to find that Louisiana should finalize its SMP.
f. Enforceability of Emissions Limitations and Control Measures
40 CFR 51.308(d)(3)(v)(F) requires that Louisiana ensure the
enforceability of emission limitations and control measures used to
meet reasonable progress goals. The SIP does not yet contain emission
limits and schedules of compliance for those EGU sources, if any,
subject to SO2 BART. Also, Louisiana's LTS is deficient
because it relied on deficient non-EGU BART determinations as discussed
in section IV.D of this action. The emissions limits for these subject-
to-BART sources were not included in the LA RH SIP.\35\ Therefore, we
are proposing to find that the LDEQ has not fully satisfied the
requirements of 40 CFR 51.308(d)(3)(v)(F) in the development of its
LTS.
---------------------------------------------------------------------------

\35\ CAA 169A(b)(2); 40 CFR 51.308(e); and 64 FR 35714, at
35741.
---------------------------------------------------------------------------

g. Anticipated Net Effect on Visibility Due to Projected Changes
40 CFR 51.308(d)(3)(v)(G) requires that in developing its LTS,
Louisiana consider the anticipated net effect on visibility due to
projected changes in point, area, and mobile source emissions over the
period addressed by the long-term strategy. In developing its RH SIP,
the LDEQ relied on the CENRAP's 2018 modeling projections, which show
that net visibility is expected to improve by 3.22 dv at Breton NWA.
The CENRAP's 2018 modeling projections account for changes in point,
area, and on-road and non-road mobile emissions. The results of the
CENRAP's 2018 modeling projections are discussed in sections IV.E.2 and
IV.E.3 of this proposed rulemaking. We are proposing to find that
Louisiana satisfies this component of LTS.

F. Coordination of RAVI and Regional Haze Requirements

Our visibility regulations direct states to coordinate their RAVI
LTS and monitoring provisions with those for RH, as explained in
section III of this action. Under our RAVI regulations, the RAVI
portion of a state SIP must address any integral vistas identified by
the FLMs pursuant to 40 CFR 51.304. See, 40 CFR 51.302. An integral
vista is defined in 40 CFR 51.301 as a ``view perceived from within the
mandatory Class I Federal area of a specific landmark or panorama
located outside the boundary of the mandatory Class I Federal area.''
Visibility in any mandatory Class I Federal area includes any integral
vista associated with that area. The FLMs for Breton have not
identified any reasonably attributable visibility impairment (i.e.,
RAVI) from Louisiana or other U.S. sources. The FLMs for the Class I
areas that Louisiana's emissions impact in other states have not
identified any reasonably attributable visibility impairment caused by
Louisiana sources. For these reasons, the Louisiana RH SIP does not
have any measures in place or a requirement to address RAVI. We propose
to find that this requirement is not applicable to the LA RH SIP at
this time. This provision may be re-considered upon receipt of
submittals from the LDEQ for subsequent implementation periods.

G. Monitoring Strategy and Other SIP Requirements

40 CFR 51.308(d)(4) requires the SIP contain a monitoring strategy
for measuring, characterizing, and reporting of RH visibility
impairment that is representative of all mandatory Class I Federal
areas within the state. This monitoring strategy must be coordinated
with the monitoring strategy required in 40 CFR 51.305 for reasonably
attributable visibility impairment. As 40 CFR 51.308(d)(4) notes,
compliance with this requirement may be met through participation in
the IMPROVE network. See the TSD for details concerning the IMPROVE
network. We are proposing to find that the LDEQ has satisfied this
requirement.
40 CFR 51.308(d)(4)(i) requires the establishment of any additional
monitoring sites or equipment needed to assess whether reasonable
progress goals to address RH for all mandatory Class I Federal areas
within the state are being achieved. The CENRAP monitoring workgroup
noted there was a visibility void in Southern Arkansas. An IMPROVE
protocol monitor was located in north central Louisiana.
PM2.5 measurements from the Louisiana monitoring network
help the LDEQ to characterize air pollution levels in areas across the
state and therefore aid in the analysis of visibility improvement in
and near the Class I areas. The LDEQ also commits in the Louisiana RH
SIP to consider alternative approaches to evaluating visibility
monitoring obligations if that becomes necessary. We are proposing to
find that the LDEQ has satisfied this requirement.
40 CFR 51.308(d)(4)(ii) requires that the LDEQ establish procedures
by which monitoring data and other information are used in determining
the contribution of emissions from within Louisiana to RH visibility
impairment at mandatory Class I Federal areas both within and outside
the state. The monitor at Breton was owned and operated by the USFWS.
After this monitor was destroyed by Hurricane Katrina in 2005, the
monitor was replaced and relocated nearby, by the USFWS, at Lake
Catherine in St. Bernard Parish. The IMPROVE monitoring program is
national in scope, and other states have similar monitoring and data
reporting procedures, ensuring a consistent and robust monitoring data
collection system. As 40 CFR 51.308(d)(4) indicates, participation in
the IMPROVE program constitutes compliance with

[[Page 11856]]

this requirement. We are therefore proposing that the LDEQ has
satisfied this requirement.
40 CFR 51.308(d)(4)(iv) requires that the SIP must provide for the
reporting of all visibility monitoring data to the Administrator at
least annually for each mandatory Class I Federal area in the state. To
the extent possible, Louisiana should report visibility monitoring data
electronically. 40 CFR 51.308(d)(4)(vi) also requires that the LDEQ
provide for other elements, including reporting, recordkeeping, and
other measures, necessary to assess and report on visibility. We are
proposing that Louisiana's participation in the IMPROVE network ensures
the monitoring data is reported at least annually, is easily
accessible, and therefore complies with this requirement.
40 CFR 51.308(d)(4)(v) requires that the LDEQ maintain a statewide
inventory of emissions of pollutants that are reasonably anticipated to
cause or contribute to visibility impairment in any mandatory Class I
Federal area. The inventory must include emissions for a baseline year,
emissions for the most recent year for which data are available, and
estimates of future projected emissions. The State must also include a
commitment to update the inventory periodically. Please refer to
section IV.E of this action, where we discuss the LDEQ's emission
inventory. The LDEQ has stated that it intends to update the Louisiana
statewide emissions inventories periodically. We are proposing to find
that this satisfies the requirement in 40 CFR 51.308(d)(4)(v).

H. Coordination With Federal Land Managers

Breton NWA is a federally protected wilderness area for which the
USFWS is the FLM. Although the FLMs are very active in participating in
the RPOs, the RHR grants the FLMs a special role in the review of the
RH SIPs, summarized in section III.H. of this action. We view both the
FLMs and the state agencies as our partners in the RH process.
40 CFR 51.308(i)(1) requires that by November 29, 1999, Louisiana
must have identified in writing to the FLMs the title of the official
to which the FLM of Breton can submit any recommendations on the
implementation of 40 CFR 51.308. We acknowledge this section has been
satisfied by all states via communication prior to this SIP.
Under 40 CFR 51.308(i)(2), Louisiana was obligated to provide the
USFWS with an opportunity for consultation, in person and at least 60
days prior to holding a public hearing on its RH SIP. In practice,
state agencies have usually provided all FLMs--the Forest Service, the
Park Service, and the USFWS, copies of their proposed RH SIP, as the
FLMs collectively have reviewed these RH SIPs. The LDEQ followed this
practice and proposed this implementation plan revision for public
comment on November 20, 2007 and notified the federal land manager
staff of the public hearing held on January 24, 2008.
40 CFR 51.308(i)(3) requires that the LDEQ provide in its RH SIP a
description of how it addressed any comments provided by the FLMs. The
LDEQ has provided that information in Appendix A of its RH SIP.
Lastly, 40 CFR 51.308(i)(4) specifies the RH SIP must provide
procedures for continuing consultation between the state and FLM on the
implementation of the visibility protection program required by 40 CFR
51.308, including development and review of implementation plan
revisions and 5-year progress reports, and on the implementation of
other programs having the potential to contribute to impairment of
visibility in the mandatory Class I Federal areas. The LDEQ has
stipulated in its RH SIP it will continue to coordinate and consult
with the FLMs as required by 40 CFR 51.308(i)(4). The LDEQ states it
intends to consult the FLMs in the development of future progress
reports and plan revisions, as well as during the implementation of
programs having the potential to contribute to visibility impairment at
Breton NWA. We are proposing to find that the LDEQ has satisfied 40 CFR
51.308(i).

I. Periodic SIP Revisions and Five-Year Progress Reports

The LDEQ affirmed its commitment to complete items required in the
future under our RHR. The LDEQ acknowledged its requirement under 40
CFR 51.308(f), to submit periodic progress reports and RH SIP
revisions, with the first report due by July 31, 2018 and every ten
years thereafter.
The LDEQ also acknowledged its requirement under 40 CFR 51.308(g),
to submit a progress report in the form of a SIP revision to us every
five years following this initial submittal of the Louisiana RH SIP.
The report will evaluate the progress made towards the RPGs for each
mandatory Class I area located within Louisiana and in each mandatory
Class I area located outside Louisiana which may be affected by
emissions from within Louisiana. We are proposing to find that the LDEQ
has satisfied 40 CFR 51.308(f) and (g).

J. Determination of the Adequacy of Existing Implementation Plan

40 CFR 51.308(h) requires that Louisiana take one of the listed
actions, as appropriate, at the same time the State is required to
submit any 5-year progress report to the EPA in accordance with 40 CFR
51.308(g). The LDEQ has committed in its SIP to take one of the actions
listed under 40 CFR 51.308(h), depending on the findings of the 5-year
progress report. We are proposing to find that the LDEQ has satisfied
40 CFR 51.308(h).

V. Proposed Action

We are proposing a partial disapproval and a partial limited
approval of Louisiana's RH SIP revision submitted on June 13, 2008.
Specifically, we are proposing to find that the following portions
of the LA RH SIP have satisfied the federal requirement and are
addressed in our proposed partial limited approval, insofar as the
elements do not rely on the SO2 reductions from the CAIR:
The State's
Identification of affected Class I areas;
Establishment of baseline, natural, and current visibility
conditions, including the URP;
Coordination of RAVI and RH Requirements;
RH monitoring strategy and other SIP requirements under 40
CFR 51.308(d)(4);
Commitment to submit periodic RH SIP revisions and
periodic progress reports describing progress towards the RPGs;
Commitment to make a determination of the adequacy of the
existing SIP at the time a progress report is submitted; and
Coordination with Federal Land Managers.
We are proposing to find that Louisiana's RPGs meet some federal
requirements, but also contain some deficiencies. We are proposing to
find that the State's RPGs are deficient given our proposed finding
that certain of Louisiana's BART determinations are not fully
approvable. In general, the State followed the requirements of 40 CFR
51.308(d)(1), but these goals do not reflect appropriate emissions
reductions from BART. For LTS, we are proposing to find that the
State's LTS satisfies many of the requirements under 40 CFR
51.308(d)(3); however, we are proposing to find that the submitted LTS
is deficient because a portion of it relies on BART determinations that
we are proposing to disapprove (see section IV.E for detailed
information regarding

[[Page 11857]]

our proposed findings concerning LTS). Also, because visibility impacts
from smoke are significant in Louisiana, we propose to find that that
Louisiana should finalize its SMP. In addition, we are proposing to
find that the following elements do not satisfy the federal
requirements for the reasons discussed in section IV of this proposal:
the State's
Determination that the Mosaic Fertilizer Uncle Sam Plant
is exempt from BART analysis; and
BART analyses for ConocoPhillips, Rhodia, and Sid
Richardson Carbon Black Plant. As discussed in section I of this
proposal, the State must address BART for SO2 for EGUs and
the related element of LTS because it can no longer rely on the CAIR to
address these requirements. In a separate action, the EPA proposed a
limited disapproval of the Louisiana RH SIP because of deficiencies in
the state's regional haze SIP submittal arising from the remand by the
U.S. Court of Appeals for the District of Columbia (DC Circuit) to the
EPA of the CAIR. 76 FR 82219. We are not taking action in this proposal
to address the state's reliance on the CAIR to meet certain regional
haze requirements related to NOX and SO2
emissions from EGUs.

VI. Statutory and Executive Order Reviews

Under the CAA, the Administrator is required to approve a SIP
submission that complies with the provisions of the Act and applicable
Federal regulations. 42 U.S.C. 7410(k); 40 CFR 52.02(a). Thus, in
reviewing SIP submissions, EPA's role is to act on state law as meeting
Federal requirements and does not impose additional requirements beyond
those imposed by state law.

A. Executive Order 12866: Regulatory Planning and Review and Executive
Order 13563: Improving Regulation and Regulatory Review

This proposed action is not a ``significant regulatory action''
under the terms of Executive Order 12866 (58 FR 51735, October 4, 1993)
and is therefore not subject to review under Executive Orders 12866 and
13563 (76 FR 3821, January 21, 2011).

B. Paperwork Reduction Act

This proposed action does not impose an information collection
burden under the provisions of the Paperwork Reduction Act, 44 U.S.C.
3501 et seq, because this proposed action under section 110 and
subchapter I, part D of the CAA will not in-and-of itself create any
new information collection burdens but simply approves or disapproves
certain State requirements for inclusion into the SIP. Burden is
defined at 5 CFR 1320.3(b).

C. Regulatory Flexibility Act

The Regulatory Flexibility Act (RFA) generally requires an agency
to conduct a regulatory flexibility analysis of any rule subject to
notice and comment rulemaking requirements 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 not-for-profit enterprises, and small governmental
jurisdictions. For purposes of assessing the impacts of today's
proposed rule on small entities, small entity is defined as: (1) A
small business as defined by the Small Business Administration's (SBA)
regulations at 13 CFR 121.201; (2) a small governmental jurisdiction
that is a government of a city, county, town, school district or
special district with a population of less than 50,000; and (3) a small
organization that is any not-for-profit enterprise which is
independently owned and operated and is not dominant in its field.
After considering the economic impacts of today's proposed rule on
small entities, I certify that this action will not have a significant
impact on a substantial number of small entities. This proposed rule
does not impose any requirements or create impacts on small entities.
This proposed rule under section 110 and subchapter I, part D of the
CAA will not in-and-of itself create any new requirements but simply
approves or disapproves certain State requirements for inclusion into
the SIP. Accordingly, it affords no opportunity for the EPA to fashion
for small entities less burdensome compliance or reporting requirements
or timetables or exemptions from all or part of the rule. The fact that
the CAA prescribes that various consequences (e.g., higher offset
requirements) may or will flow from this proposed rule does not mean
that the EPA either can or must conduct a regulatory flexibility
analysis for this action. Therefore, this action will not have a
significant economic impact on a substantial number of small entities.
We continue to be interested in the potential impacts of this proposed
rule on small entities and welcome comments on issues related to such
impacts.

D. Unfunded Mandates Reform Act

This action contains no Federal mandates under the provisions of
Title II of the Unfunded Mandates Reform Act of 1995 (UMRA), 2 U.S.C.
1531-1538, for State, local, or tribal governments or the private
sector. The EPA has determined that the proposed action does not
include a Federal mandate that may result in estimated costs of $100
million or more to either State, local, or tribal governments in the
aggregate, or to the private sector. This action proposes to approve or
disapprove pre-existing requirements under State or local law, and
imposes no new requirements. Accordingly, no additional costs to State,
local, or tribal governments, or to the private sector, result from
this action.

E. Executive Order 13132, Federalism

Executive Order 13132, entitled ``Federalism'' (64 FR 43255, August
10, 1999), requires the 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.''
This proposed 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, because it merely approves or
disapproves certain State requirements for inclusion into the SIP and
does not alter the relationship or the distribution of power and
responsibilities established in the CAA. Thus, Executive Order 13132
does not apply to this action.

F. Executive Order 13175, Coordination With Indian Tribal Governments

This proposed action does not have tribal implications, as
specified in Executive Order 13175 (65 FR 67249, November 9, 2000),
because the action the EPA is proposing neither imposes substantial
direct compliance costs on tribal governments, nor preempts tribal law.
Therefore, the requirements of section 5(b) and 5(c) of the Executive
Order do not apply to this rule. Consistent with the EPA policy, the
EPA nonetheless is offering consultation to Tribes regarding this
rulemaking action. The EPA will respond to relevant comments in the
final rulemaking action.

[[Page 11858]]

G. Executive Order 13045, Protection of Children From Environmental
Health Risks and Safety Risks

The EPA interprets Executive Order 13045 (62 FR 19885, April 23,
1997) as applying only to those regulatory actions that concern health
or safety risks, such that the analysis required under section 5-501 of
the Executive Order has the potential to influence the regulation. This
proposed action is not subject to Executive Order 13045 because it is
not an economically significant regulatory action based on health or
safety risks subject to Executive Order 13045 (62 FR 19885, April 23,
1997). This proposed action under section 110 and subchapter I, part D
of the CAA will not in and of itself create any new regulations but
simply approves or disapproves certain State requirements for inclusion
into the SIP.

H. Executive Order 13211, Actions That Significantly Affect Energy
Supply, Distribution or Use

This proposed action is not subject to Executive Order 13211 (66 FR
28355, May 22, 2001) because it is not a significant regulatory action
under Executive Order 12866.

I. National Technology Transfer and Advancement Act

Section 12(d) of the National Technology Transfer and Advancement
Act of 1995 (``NTTAA''), Public Law 104-113, section 12(d) (15 U.S.C.
272 note) directs the 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
adopted by voluntary consensus standards bodies. The NTTAA directs the
EPA to provide Congress, through OMB, explanations when the Agency
decides not to use available and applicable voluntary consensus
standards.
The EPA believes that this proposed action is not subject to
requirements of Section 12(d) of the NTTAA because application of those
requirements would be inconsistent with the CAA.

J. Executive Order 12898: Federal Actions To Address Environmental
Justice in Minority Populations and Low-Income Populations

Executive Order 12898 (59 FR 7629, February 16, 1994) establishes
federal executive policy on environmental justice. Its main provision
directs federal agencies, to the greatest extent practicable and
permitted by law, to make environmental justice part of their mission
by identifying and addressing, as appropriate, disproportionately high
and adverse human health or environmental effects of their programs,
policies, and activities on minority populations and low-income
populations in the United States.
The EPA lacks the discretionary authority to address environmental
justice in this proposed action. In reviewing SIP submissions, the
EPA's role is to approve or disapprove state choices, based on the
criteria of the CAA. Accordingly, this action merely proposes to
approve or disapprove certain State requirements for inclusion into the
SIP under section 110 and subchapter I, part D of the CAA and will not
in and of itself create any new requirements. Accordingly, it does not
provide the EPA with the discretionary authority to address, as
appropriate, disproportionate human health or environmental effects,
using practicable and legally permissible methods, under Executive
Order 12898.

List of Subjects in 40 CFR Part 52

Environmental protection, Air pollution control, Intergovernmental
relations, Nitrogen dioxide, Ozone, Particulate matter, Reporting and
recordkeeping requirements, Sulfur dioxides, Visibility, Interstate
transport of pollution, Regional haze, Best available control
technology.

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

Dated: February 15, 2012.
Al Armendariz,
Regional Administrator, Region 6.
[FR Doc. 2012-4676 Filed 2-27-12; 8:45 am]
BILLING CODE 6560-50-P

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