Presented by: Ralph Morris WRAP Regional Modeling Center (RMC )

1. Western Regional Air Partnership (WRAP) Projection of Visibility Changes and Modeling Sensitivity Analysis Presented by: Ralph Morris WRAP Regional Modeling Center (RMC) University of California/ENVIRON Corp. rmorris@environcorp.com Presented at: RPO National Workgroup Meeting November 4-6, 2003 St. Louis, Missouri Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

2. WRAP Visibility Objectives • §309 SIP/TIP due 2004 • 9 “Grand Canyon” states may opt-in (AZ, CA, CO, ID, NV, NM, UT, and WY). • Focus on 16 Class I Areas on the Colorado Plateau • §308 SIP/TIP due 2007 • 2000-2004 visibility baseline • 2018 end of first planning period • Show progress toward natural visibility conditions by 2064 Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

3. Section 309 SIP/TIP Modeling Requirements • Demonstrate that SO2 Annex Milestone control strategy is better than BART with Uncertainty • Estimate visibility improvements in 2018 due to §309 Scenarios 1 & 2 • Analyze “significance” of Mobile Source and Road Dust at 16 Class I Areas • Evaluate PM/NOx point source controls • Evaluate alternative fire management practices Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

4. WRAP CMAQ and REMSAD Modeling Domains Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

5. Projecting Future-Year Visibility • Follow EPA draft guidance for projecting future-year visibility (EPA, 2001a,b,c) • Use model in a relative fashion to scale the current (1996 or 1997-200l) observed visibility for the Best 20% and Worst 20% days based on the ratio of the 2018 to 1996 modeling results • Relative Reductions Factors (RRFs) • Class I Area specific (map IMPROVE data) • Specific for each component of light extinction (SO4, NO3, EC, OC, Soil, and CM) Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

6. Mapping of IMPROVE Data to Class I Areas Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

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8. Projecting Future-Year Visibility • Deviations from EPA Guidance for §309 SIP • 2000-2004 Baseline for W20%/B20%? • 1996 Modeling Baseline: • Use 1996 W20%/B20% obs days to define RRF 2018 projection factors • Use two observed visibility baselines • W20%/B20% days from 1996 • W20%/B20% days from latest 5-yrs (1997-2001) Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

9. Projecting Future-Year Visibility • Deviations from EPA Guidance for §309 SIP • No wind blown fugitive dust in inventory • Major component of Soil and CM • Some observed Soil and CM impacts likely sub-grid scale (< 36 km) • Model estimated RRFs for Soil and CM are in error • Set RRFs for Soil and CM to unity • RRF(Soil) = RRF(CM) = 1.0 • Assumes 2018 Soil and CM identical to current year Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

10. 2018 §309 Control Scenarios 1 & 2 • Area sources, base case • Road dust base case • Off-Road, base case • On-Road base case • 1996 Biogenic base case • “Typical year” Wildfires base case • Point source control case (SO2 Annex Milestones combined with Pollution Prevention) • Mexico inventory (area/point) • Agricultural and Rx fires: • Scenario 1: Base Smoke Management (BSM) • Scenario 2: Optimal Smoke Management (OSM) Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

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12. 2018 §309 Control Scenarios 1 & 2 Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

13. Calculation of 2018 Visibility Goals • Glide Path Slope to Natural Conditions (NCs) in 2064 • 2000-2004 Observed Baseline Visibility Conditions (Anchors Glide Path Slope) • Worst 20% Days: Progress toward Natural Visibility Conditions in 2064 with Planning Periods ending at 2018, 2028, 2038, 2048, 2058, and 2064 • Best 20% Days: No Degradation in Visibility • Glide Path Slope Values assumes linear progress from 2004 observed visibility to NCs in 2064 Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

14. Preliminary Glide Path Slope Values to NCs • Use most current 5-yrs of observed visibility to anchor Glide Path in 2004 • 1997-2001 IMPROVE data currently most recent • Map Observed Visibility Conditions from IMPROVE Monitors to Nearby Class I Areas • Use current EPA draft guidance for natural conditions (NC) for worst days (EPA, 2001) • Needs to be evaluated for appropriateness • Sea salt, wind blown dust, wildfires, Asian dust, Saharan dust, geogenic, biogenic Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

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21. Mobile Source Significance • Change in extinction due to Mobile Sources over the EPA Natural Conditions (Worst 20% Days) • Applied to 13 urban areas and California to estimate “significance” at 16 Class I Areas on Colorado Plateau • No On-Road and Off-Road Mobile Source Emissions (“Zero-Out”) modeling priorities: • 9 Grand Canyon (GC) States (Cumulative) • California • Phoenix, Arizona (Maricopa County) • Las Vegas, Nevada (Clark County) Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

22. Summary of 2018 Anthropogenic Emissions in 9 Grand Canyon (GC) States Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

23. Comments on 2018 Emissions in 9 GC States • 47% NOX due to “Mobile Sources” • 64% Off-Road vs. 36% On-Road • 21% SO2 due to “Mobile Sources” • Almost all (97%) due to Off-Road Sources • Off-Road gas engines use low sulfur gasoline • Upcoming Off-Road Rules for some Off-Road equipment expected before 2018 not accounted for (e.g., S reduction) • Mobile PM2.5 is 12% of total but consists of EC & OC with high light extinction efficiencies • New EPA NONROAD model results in substantial reductions in emissions over old NONROAD Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

24. What is a significant visibility impact? • A 2 deciview (dv) or 20% change in extinction is believed to be a perceptible change • PSD Class I Area visibility AQRV analysis uses a 10 % change in extinction over natural conditions threshold for cumulative impacts • Definition of natural conditions a point of controversy • e.g., how to treat weather interference • Use two visibility backgrounds • EPA natural conditions • 2018 Base Case conditions Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

25. Cumulative Mobile Source Significance Test9 GC States, EPA Natural Conditions, & 2018 WRAP Base Case Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

26. Estimate On-Road & Off-Road Contributions9 GC States for Petrified Forest, Capitol Reef, and Grand Canyon Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

27. Road Dust Significance Results • Road Dust mainly in Soil and CM components so cannot use scaled modeling results • Currently Road Dust is 20% of PM10 emissions in 9 GC States (w/o wind blown dust) • Missing wind blown dust • Some of Road Dust impacts likely subgrid-scale • Use Absolute Modeling Results • Can’t use RRFs as RRF(CM)=RRF(Soil)=1.0 • Cumulative impact range from 0.80% to 3.13% Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

28. Road Dust Emissions Significance TestUsing W20 Absolute Model Results (No RRFs) Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

29. Stationary Source Sensitivity • NOx and/or PM10 emission changes on major stationary sources (> 100 TPY) • 50% reduction in NOx emissions • 50% reduction in PM10 emissions • 25% increase in NOx & PM10 emissions • Purpose: • §309 must analyze stationary source NOx/PM controls • evaluate NOx/PM control strategies • assess impacts of such controls on visibility • evaluate the need for NOx/PM control program Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

30. Stationary Source Sensitivity -- Conclusions • Stationary source PM emissions contribute approximately 2% on average to visibility impairment • Stationary source NOx emissions contribute: • 2-5% to impairment on average at Class I areas on the Colorado Plateau • larger contributions on some of the haziest days • ~20% at some Class I areas in the Pacific Northwest and California Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

31. Utility Boilers Utility ICEs Industrial ICEs 91% of the emissions > 100 tpy Industrial Boilers Industrial Processes Stationary Source NOx Emissions > 100 TPY Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

32. Stationary Source NOx Emissions > 100 TPY Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

33. 50% NOx Control on Ammonium Nitrate Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

34. 1996 Annual (NH4)2NO3 @ IMPROVE Sites Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

35. % Light Extinction due to Nitrate W20% Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

36. Utility Boilers Industrial Boilers Mineral Products Chemical Manufacturing 78% of the emissions > 100 tpy Primary Metal Production Industrial Processes Stationary Source PM10 Emissions > 100 TPY Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

37. Stationary Source PM10 Emissions > 100 TPY Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

38. 50% PM10 Control on PM10 Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

39. 1996 Annual PM10 @ IMPROVE Sites Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

40. % Annual Extinction due to Coarse Matter Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

41. §309 Stationary Source NOx/PM Analysis • §309 Stationary Source PM/NOx Report • available at: www.wrapair.org • Starting point for multi-year process • Determination of BART eligible NOx/PM sources • Identification of NOx/PM control options • Assessment of visibility improvements due to alternative stationary source NOx/PM controls • progress toward 2064 natural conditions goal • better modeling needed • nitrate performance issues • PM performance issues Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt

42. EPA Visibility Projection Procedure • Calculated only at Class I Areas • Implies model spatial and temperal accuracy • Ignores visibility/PM changes over most of domain • Model vs observed W20%/B20% days • Need for Additional Vvisibility Metrics • Spatial plots of visibility “Improvements” • Other days than observed W20%/B20% • Other? Projects:/WRAP_RMC/Presents/ADEQ_Feb062003.ppt