Prevention of Significant Deterioration (PSD) NSR Program

1. Prevention of Significant Deterioration (PSD) NSR Program Jessica Montañez U.S. Environmental Protection Agency Office of Air Quality Planning and Standards 919-541-3407, montanez.jessica@epa.gov

2. Agenda 1. PSD Applicability 2. PSD Requirements 3. NSR Applicability Example

3. Prevention of Significant Deterioration (PSD) NSR Program Basics

4. Which sources might be subject to the major PSD program? • Sources locating in areas attaining the National Ambient Air Quality Standards or areas that are unclassifiable • New major sources • Existing major sources making major modifications • Physical or operational changes at the source • Change should show significant net emissions increase

5. How do you know when PSD applies to a source? • Determine source’s potential to emit (PTE) • Assess attainment status of source’s geographic area • Determine applicable source thresholds • Determine if source is major for PSD

6. 1. What is the source’s potential to emit (PTE)? • The maximum capacity of source to emit a pollutant under its physical and operational design • Based on operating 24 hours a day, 365 days a year (8760 hours/year) • Can include effect of emissions controls, if enforceable by permit or: • State Implementation Plan (SIP), • Tribal Implementation Plan (TIP) or • Federal Implementation Plan (FIP) conditions

7. 2. What is the attainment status of source’s geographic area? • Determine if area is in attainment for each National Ambient Air Quality Standard (NAAQS) emitted by the source • To find this information: • Contact the appropriate EPA Regional office or applicable permitting authority • Search an EPA database such as: www.epa.gov/air/data

8. 3. What is the applicable PSD threshold? • 250 tons per year (tpy) for most source categories • 100 tpy, if part of the 28 listed source categories

9. 4. How do you determine if a source is major for PSD? • For each pollutant, compare the source’s PTE with applicable threshold • If PTE is equal to or higher than threshold, source is major for PSD • For example: • Source PTE for NO2 is 300 tpy • 300 tpy > 250 tpy, source is subject to PSD

10. When might a modification be subject to the PSD program? • Based on significant net emissions increase • Determine if proposed source emissions exceeds significant emissions rate (SER) • Determine net emissions increase (NEI) • Sum of contemporaneous emissions increases and decreases to the proposed modification increase • NEI = PMEI + CEI – CED (ERC) where: • PMEI – Proposed modification emissions increase • CEI – Creditable emissions increase • CED – Creditable emissions decreases • ERC – Emissions reduction credit(s) • Check if NEI is greater than SER, if so, source is major

11. 350 Major Source Threshold 300 250 200 Actual PTE 150 100 50 0 Emissions (tpy) Why might a new or modified source not be subject to PSD? • PTE less than major source thresholds • Source is “grandfathered” • Source opted for “synthetic minor” permit Synthetic Minor Source Emissions

12. In what other circumstances can a source be subject to PSD? • Once it is determined that a source is major for PSD, source also has to review pollutants that are below the thresholds by comparing PTE to Significant Emissions Rate (SER) • Pollutants for which the area is in attainment (NAAQS) • Other pollutants • Emissions equal to or higher than SER make pollutant also subject to PSD • Concept known as “Major for one Major for all”

13. What must a major source subject to PSD do? • Install of Best Available Control Technology (BACT) • Perform air quality analysis • Perform class I area analysis • Perform additional impacts analysis • Allow opportunities for public involvement

14. NSR Applicability Example

15. Which pollutants are subject to PSD, NA NSR, and minor NSR permitting? • New Kraft Pulp Mill • PTE’s: • PM-10 – 10 tpy • VOC – 80 tpy • SO2 – 185 tpy • Area: • In attainment for PM-10 and VOC • In moderate nonattainment for SO2 http://esask.uregina.ca • Kraft pulp mill’s produce the dark colored wood pulp used in the manufacture of a variety of paper products.

16. Example Solution • Evaluate for PSD • Determine applicable threshold • Kraft pulp mills part of 28 listed source categories • Major source threshold is 100 tpy, not 250 tpy • Determine if the source is major based on the threshold • 185 tpy of SO2 > 100 tpy threshold • Mill is a major source for PSD • Now review all attainment pollutants for PSD applicability PTE’s: SO2=185 tpy, VOC=80 tpy, PM-10=10 tpy; Area in: NA for SO2, Att. for VOC and PM-10

17. Example Solution (Continued) • Review the two attainment pollutants based on their SER • VOC: • PTE = 80 tpy, VOC not on SER list • However, VOC is ozone precursor • Ozone on list, SER = 40 tpy • 80 tpy of VOC > 40 tpy ozone SER, VOC subject to PSD • PM-10: • PTE = 10 tpy • PM-10 SER = 15tpy • 10 tpy of PM-10 < 15 tpy SER, PM-10 not subject to PSD PTE’s: SO2=185 tpy, VOC=80 tpy, PM-10=10 tpy; Area in: NA for SO2, Att. for VOC and PM-10

18. Example Solution (Continued) • Evaluate for NA NSR • Determine applicable threshold • Major source threshold for moderate NA is 100 tpy • Determine if the source is major based on the threshold • Only NA pollutant is SO2 • 185 tpy of SO2 > 100 tpy threshold, SO2subject to NA NSR • Evaluate for Minor NSR • PM-10 PTE = 10 tpy • PM-10 may be subject to minor NSR • Proposed minor Tribal NSR rule, PM-10 Att. threshold = 5 tpy • 10 tpy of PM-10 > 5 tpy threshold, PM-10 subject to minor NSR PTE’s: SO2=185 tpy, VOC=80 tpy, PM-10=10 tpy; Area in: NA for SO2, Att. for VOC and PM-10

19. PSD Requirements Details

20. Agenda 1. PSD Requirements Details 2. Refinements of Increment Modeling Procedures Proposal

21. Review: What must a major source subject to PSD do? • Install of Best Available Control Technology (BACT) • Perform air quality analysis • Perform class I area analysis • Perform additional impacts analysis • Allow opportunities for public involvement

22. What is Best Available Control Technology (BACT)? • Pollutant specific emissions limit, case-by-case • Takes into account energy, environmental, or economic impacts • Limit must be at least as stringent as applicable: • New Source Performance Standard (NSPS) and/or • National Emission Standard for Hazardous Air Pollutants (NESHAP) • Selected by “Top Down” BACT analysis

23. What are the requirements for the “Top-down” BACT analysis? • Identify all available air pollution control technologies, regardless of cost • Eliminate technical infeasible control options • Rank remaining control technologies according to control effectiveness. For each pollutant, list includes: • Control efficiency (percent of pollutant removed) • Expected emissions reduction (tons/year) • Economic Impacts • Environmental Impacts (i.e. significant impact on surface water) • Energy Impacts • Evaluate most effective controls based on all the factors in step 3 and document results • Select BACT

24. What is an air quality analysis and its purpose? • Analysis that involves: • An assessment of existing air quality • Modeling estimate of ambient concentrations from proposed project and future growth associated with project • Purpose: • Will new plus existingemissions cause or contribute to: • NAAQS and/or • PSD increment violation • Pollutant specific, noncriteria pollutants are also evaluated

25. What are the steps of the air quality analysis? Determine Need for Pre-application Monitoring Meteorological Data Model Impact of Proposed and Other Emission Sources Source Input Data (Pollutants with Significant Emissions) Ambient Concentrations Above Air Quality Significance Level No No Further NAAQS or PSD Increment Analysis Performed for Pollutant Yes Determine Impact Area Develop Emissions Inventories of Other Sources Meteorological Data Model Impact of Proposed and Other Emission Sources Source Input Data (Pollutants with Significant Emissions) Demonstration of Compliance

26. What do we require for an increment analysis? • A new source or modification cannot cause or contribute to significant deterioration of air quality in attainment areas • Maximum amount of deterioration allowed is called an increment • Change in air quality measured against a certain baseline • Not all sources consume increment

27. What is an increment? • Increment • Maximum allowed increase in concentration of a pollutant above baseline (concentration as of baseline date) in an area • Increments exist for: • 3 pollutants: • PM-10, SO2, NO2 • Variety of averaging periods • 3-hour, 24-hour, annual • Variety of area classifications • Class I - national parks and other natural areas • Class II - nearly all other areas in the US • Class III - areas targeted for industrial development

28. How is increment compliance determined? • By using air quality models • Preliminary analysis (significant impact analysis) • Screening type models • Representative meteorology • Only proposed source emissions • Refined receptor grids • Full impact analysis (cumulative impact analysis) • Refined model • Representative meteorology • All applicable increment affecting sources • More refined receptor grids (smaller grid spacing)

29. How is increment compliance determined? (cont.) • Determine Need for Pre-application Monitoring • If existing ambient impact is less than the Significant Monitoring Concentration (SMC), permitting agency can exempt an applicant from monitoring

30. How is increment compliance determined? (cont.) Conduct Significant Impact Analysis Acquire meteorological and source emissions data (actual emissions) Model impact of proposed source If source ambient concentrations are: Lower than the Significant Impact Levels* (SILs), no further analysis needed Higher than the SILs, full impact analysis is needed *EPA’s current PSD regulations do not contain SILs, but they have been widely used as a screening tool.

31. How is increment compliance determined? (cont.) • Determine Baseline Area(s) • All portions of the attainment or unclassifiable area in which the PSD applicant proposes to locate(See section 107 of the Act) and/or • Any attainment or unclassifiable area in which the PSD applicant would have a significant ambient impact (i.e. higher than SIL) • Limited to intrastate areas • Baseline areas not triggered across state lines

32. How is increment compliance determined? (cont.) Determine Baseline Date(s) - when increment consumption starts, pollutant specific Minor Source Baseline Date when actual emission changes from all sources affect the available increment Date of first complete permit application Trigger Date when the minor source baseline date may be established SO2 and PM – 1977, NOx - 1988 Major Source Baseline Date when actual emissions associated with construction at a major source affect increment SO2 and PM - Jan. 6, 1975 NOx - Feb. 8, 1988 Start

33. How is increment compliance determined (cont.)? • Example: Baseline Areas and Dates • New source planned for Iowa county, Wisconsin • Wisconsin lists attainment status by counties • Minor source baseline dates (if already established) for Iowa and surrounding counties listed below

34. Significant Impact Area How is increment compliance determined? (cont.) • Source: • Is major for SO2 and PM-10 (area in attainment for both pollutants) • Submits complete PSD application on November 30, 2007 • What is the baseline area? • Dispersion modeling shows impact area covers Iowa, Sauk and Dane counties (e.g., ambient concentrations for SO2 and PM-10 exceed 1g/m3 annual SIL) • What are the baseline dates? • Iowa – November 30, 2007 for SO2 and PM-10 • Sauk –November 30, 2007 for SO2: September 27, 2002 for PM-10 • Dane –September 13, 1998 for SO2 and PM-10

35. County A County B Proposed Source How is increment compliance determined? (cont.) • Conduct Cumulative Impact Analysis • Determine Impact Area • Based on impact area determined for preliminary analysis • Circular area with a radius extending from the source to: • Largest area for all the pollutants modeled during preliminary analysis or • Receptor distance of 50 km, whichever is less

36. County A County B 50 km Proposed Source How is increment compliance determined? (cont.) • Conduct Cumulative Impact Analysis • Develop Emissions Inventory • Includes all increment affecting sources within the impact area and the annular area extending 50 kilometers beyond the impact area. • Includes mobile, area and secondary sources • Based on actual emissions over the 2 years preceding the particular date (i.e., baseline or current) • Other time periods may be used if they are “more representative of normal source operations”

37. How is increment compliance determined? (cont.) Conduct Cumulative Impact Analysis Model Impact of Proposed and Existing Sources Uses emission inventory data and meteorology to determine the change (Δ) in concentration from baseline Determination of Compliance If model output for each pollutant and averaging period is higher than the increment, the permit: Is denied or Granted, if emissions are “offset’ by other sources in the area

38. What do we require for the NAAQS analysis? • A new source or modification cannot cause or contribute to a violation of any NAAQS in any area • Compliance with any NAAQS is based on proposed source and all other sources in baseline area • No baseline dates exist • Analysis requirements similar to increment analysis • NAAQS analysis independent from increment analysis

39. What is an class I area impact analysis? • Evaluation of NAAQS, PSD increments and Air Quality Related Values (AQRVs) when a major source’s emissions may affect a Class I area • AQRVs – feature or property of a Class I Area that may be affected by a change in air quality • Differ for each Class I area • Defined by the Federal Land Manager (FLM) for Federal lands, or by the applicable State or Indian Governing body for nonfederal lands • Generally for sources within 100 km of Class I area, not always • FLM must be notified of potential impacts • Determines data and analyses needed

40. What is an additional impact analysis? • Assesses potential effects of increased pollution from new source and associated growth on: • Soils and Vegetation • Visibility • Pollutant specific • Performed within the impact area of the proposed source • Depends on: • existing air quality • quantity and type of emissions • sensitivity of local soils and vegetation (especially commercial crops) • general visibility concerns

41. What is done with the PSD information? • Source submits the analyses in PSD permit application to permitting authority • Permitting authority evaluates analyses/application to determine requirements for PSD permit • Reviewing authority then prepares or provides: • Draft permit • Adequate public notice to affected and general public • 30-day public comment period on draft permit • Opportunity for public hearing on draft permit • If all requirements met, permitting authority grants permit

42. Proposed Refinements to Increment Modeling Procedures Rule

43. Refinements of Increment Modeling Procedures Proposal • Purpose: • Clarifies the status of existing PSD increment guidance • Addresses how the emissions and meteorology inventory for increment purposes can be developed • Seeks comment on some of the Western States Air Resources Council (WESTAR) recommendations for improving the PSD program • Addresses the issue of Class I Federal Land Manager (FLM) variances • Proposal: • Published in Federal Register on June 6, 2007 • Promulgation: • Scheduled for December 2008

44. What have been some difficulties in increment modeling? • Often don’t have adequate older emissions data • Don’t have direct emissions data for all averaging periods • Don’t have hourly data for any sources other than utilities • Don’t have older meteorological data • Regions and states using different methods

45. Issues Addressed in the Proposal • What is the effect of the 1990 Draft NSR Workshop Manual? • Manual not a binding regulation, not final agency policy • How are emissions estimated for increment purposes? • No prescribed method, reviewing authority discretion allowed • Requested comment on WESTAR’s recommended approaches: • menu of acceptable emissions calculation approaches for both short-term and annual increments • set of guiding principles for selecting the most appropriate option from the menu • Mobile sources emissions should be included • Other time periods may be used to establish actual emissions if they are “more representative of normal source operations”

46. Issues Addressed in the Proposal (cont.) • How are meteorological data estimated for increment purposes? • Reviewing authorities have discretion for using prognostic meteorological models (models that fill gaps in data) • Years of Data Needed: • Observational data: 5 years and at least 1 year for site specific data • Prognostic data: less than 5, but at least 3 years of data • If proprietary data or software needed, reviewing authority has discretion for: • requiring independent review of the proprietary data and conducting the review, provided that confidential information is protected • determining software acceptability based on the: (1) reproducibility of the data or model simulation and (2) quality assurance procedures used in its development

47. Issues Addressed in the Proposal (cont.) • How future sources in the area where a variance has been granted treat the emissions from the source who received the variance? • Variances – approval of permit when increment is exceeded, but AQRVs are not impacted • We proposed: • Area now has to comply with two increments: the Class I and Class II increments. The Class II increment can never be exceeded. • Variance source(s) emissions not counted in future Class I increment analyses, counted toward future Class II analyses • Implementation Plans (SIPs) not amended to correct violation

48. Appendix

49. What are the pollutants regulated by the NSR program? • The National Ambient Air Quality Standards (NAAQS) pollutants • Any NAAQS precursors • Any pollutant regulated under the New Source Performance Standards (CAA, Section 111) • Any pollutant otherwise regulated under the Act, except the National Emission Standards for Hazardous Air Pollutants (CAA Section 112) • Any Class I or Class II substance regulated by Title VI of the Act, Stratospheric Ozone Protection

50. What are the National Ambient Air Quality Standards (NAAQS)? • EPA sets NAAQS for: • Ozone (smog) • Carbon Monoxide (CO) • Particulate Matter (dust/soot) • For each of the NAAQS pollutants, every area of the U.S. is designated into one of the following categories: • Attainment- air quality concentrations equal to or lower than NAAQS • Nonattainment - air quality concentrations higher than NAAQS • Unclassifiable – not enough data on air quality; generally treated as attainment • Nitrogen dioxide (NO2) • Sulfur dioxide (SO2) • Lead (Pb)