PM2.5 NAAQS Modeling – Challenges and Possible Solutions2 PM2.5 NAAQS Modeling – Agenda (My...
Transcript of PM2.5 NAAQS Modeling – Challenges and Possible Solutions2 PM2.5 NAAQS Modeling – Agenda (My...
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PM2.5 NAAQS Modeling PM2.5 NAAQS Modeling ––Challenges & Possible SolutionsChallenges & Possible Solutions
The 23rd Annual Conference on the EnvironmentUpper Midwest Section – Air & Waste Management Association
Earl Brown Heritage Center, Minneapolis, Minnesota
November 6, 2008Dennis L. Becker
Minnesota Pollution Control Agency
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PM2.5 NAAQS Modeling PM2.5 NAAQS Modeling –– AgendaAgenda(My Focus: Background)(My Focus: Background)
Some ChallengesAERMET with AERSURFACE & 2001 NLCDBackground Concentrations > 50% of NAAQSComputing Run TimeDirect Emissions (Condensable + Filterable)Emission Factors & Emission Testing
Possible Solutions (Background)Possible Evaluations (Background)
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PM2.5 NAAQS ModelingPM2.5 NAAQS Modeling
High 24-Hour PM2.5 BackgroundPM2.5 > 50% of NAAQS (Statewide)
• My focus: 24-hour PM2.5 in northern MN• Federal Reference Method (FRM) Sites
– Site 1300 (Virginia)– Site 3051 (Mille Lacs)– Site 7550 (Duluth)– Site 7551 (Duluth)
High Annual PM2.5 BackgroundPM2.5 ~50% of NAAQS (Statewide)
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PM2.5 FRM Sites PM2.5 FRM Sites –– Northern MNNorthern MN
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2424--Hour PM2.5 Background ValuesHour PM2.5 Background Values
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Annual PM2.5 Background ValuesAnnual PM2.5 Background Values
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MPCA Thoughts on BackgroundMPCA Thoughts on BackgroundProblem:
Past methods to account for background in NAAQS modeling demonstrations lack space/time “pairing” of facility impacts with monitored background impacts.Can we PREDICT background in time and space?
Possible Solution:Using available emissions data from area and mobile source inventories…Can we MODEL background in time and space the same way we do for emissions from a project?
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MPCA Thoughts on BackgroundMPCA Thoughts on BackgroundInstead of adding it (traditional approach)..Let’s model it (modeled approach)
Others are thinking about this too9th Conference on Air Quality ModelingPresentation by Bob Paine of ENSROne of the original AERMIC membersBob mentions PM2.5 NAAQS modeling with modeled background (see his slides 11-14)
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MPCA Thoughts on BackgroundMPCA Thoughts on BackgroundTraditional Approach (Appendix W)
First model the facility and nearby sourcesThen add representative/conservative background
• 98th percentile (24-hour values of 20 to 30 ug/m3 in MN)• 50th percentile (annual values of 6 to 11.5 ug/m3 in MN)
Modeled Approach (Maybe) (Pending)Model “ALL” sources
• Facility & Nearby & FAR[FWE+CWE] & BKG Sources• Maximize pairing in space/time
Extra Requirements• EPA/MPCA written approval• EPA Model Clearinghouse vetting or EPA Region 5 vetting• Post-Construction Ambient Monitoring?• Rewrite AERMOD code? Appendix W? Other Guidance?
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PM2.5 BackgroundPM2.5 BackgroundModeled Background Approach (Idea Stage)
Ready or not – here it is – warts and all
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PM2.5 Background PM2.5 Background –– Topics Topics (Modeled Background Approach)(Modeled Background Approach)
Some ConceptsSome DetailsSome TestsNext Steps
Possible Future WorkPossible Vetting Schedule
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PM2.5 Background PM2.5 Background –– ConceptsConcepts
Key Concepts for Modeled BackgroundLet’s avoid unpaired sumsOptimize “pairing” to avoid:
• Modeled maximum on day A• Monitored maximum on day B
Idea: model it (don’t add it)• Single AREACIRC source• Let AERMOD do the pairing
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PM2.5 Background PM2.5 Background –– Some Details Some Details (Modeled Background Approach)(Modeled Background Approach)Possible Solution for Background (BKG)
Goal: optimize “pairing”How: model it!! [sources and background]
• Model BKG within ?? km to optimize “pairing”• Model: Facility + Nearby + “FAR” + BKG Sources
– Model facility sources as usual– Model nearby sources as usual– Model First-Approximation Run (FAR) Sources
» Regional/Facility-Wide Emissions (FWE)» Regional/County-Wide Emissions (CWE)
– Model BKG via large AREACIRC Source
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PM2.5 Background PM2.5 Background –– Four Tests Four Tests (Modeled Background Approach)(Modeled Background Approach)1. Significant Concentration Gradient
FLAT Terrain (288 receptors out to 30km)ELEV Terrain (950 receptors out to ~3km)
2. AREACIRC Radii (1 receptor)3. Full Distribution (1 receptor)4. Simple Example & Comparison (1 receptor)
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PM2.5 Modeled Background Test1PM2.5 Modeled Background Test1Significant Concentration GradientSignificant Concentration GradientAREACIRC – Carlton County BKG Test
Radius: 50,000 meters (i.e. 50KM)Emission Flux = 12.5 * 0.2287E-08 g/s/m2
• 0.2287E-08 = Carlton county PM2.5 emissions on MPCA EDA website (area, non-road, on-road) / county size
– http://www.pca.state.mn.us/data/edaAir/emissions.cfm– http://www.naco.org/Template.cfm?Section=Find_a_County
Release Height = 10.0 metersInitial Sigma-Zo = 4.65 metersDuluth surface & St. Cloud upper air met data
FLAT terrain results are encouragingThis may be fine for long-range transportThis may have significant computational advantages
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AREACIRC & FLAT terrain gridAREACIRC & FLAT terrain grid
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24HOUR FLAT Terrain Results24HOUR FLAT Terrain Results
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ANNUAL FLAT Terrain ResultsANNUAL FLAT Terrain Results
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AREACIRC & ELEV Terrain GridAREACIRC & ELEV Terrain Grid
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AREACIRC & ELEV Terrain GridAREACIRC & ELEV Terrain Grid
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ELEV TERRAIN (~200 Feet Relief)ELEV TERRAIN (~200 Feet Relief)
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24HOUR ELEV Terrain Results24HOUR ELEV Terrain Results
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ANNUAL ELEV Terrain ResultsANNUAL ELEV Terrain Results
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PM2.5 Modeled Background Test2PM2.5 Modeled Background Test2(Three Different AREACIRC Radii)(Three Different AREACIRC Radii)AREACIRC – Carlton County BKG Test
3 Radii: 50,000m, 500,000m, and 5,000,000mEmission Flux = 0.2287E-08 g/s/m2Release Height = 10.0 metersInitial Sigma-Zo = 4.65 metersDuluth surface & St. Cloud upper air met data
Results are encouraging
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PM2.5 Modeled Background Test2PM2.5 Modeled Background Test2(Three Different AREACIRC Radii)(Three Different AREACIRC Radii)Results for Radius = 50,000 meters
Annual = 0.5 ug/m3 (monitor/model ~13)24hour = 1.6 ug/m3 (monitor/model ~14)
Results for Radius = 500,000 metersAnnual = 1.5 ug/m3 (monitor/model ~4.3)24hour = 4.5 ug/m3 (monitor/model ~ 4.9)
Results for Radius = 5,000,000 metersAnnual = 6.2 ug/m3 (monitor/model ~1.1)24hour = 20.0 ug/m3 (monitor/model ~1.1)
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PM2.5 Modeled Background Test3PM2.5 Modeled Background Test3(3 Different Radii; Full Distribution)(3 Different Radii; Full Distribution)
Model Assumptions (Background Only)AREACIRC Emission Flux = Scalar * 0.22870E-07 g/s/m2
• Scalar=12.5, 4.9, 1.1 (by radii)• Radii = 5E4, 5E5, 5E6 meters• Release Height = 10.0 meters• Initial Sigma-Zo = 4.65 meters
Meteorology – Duluth surface & St. Cloud upper airModeled Background (AERMOD AERACIRC)
24hour: Approx. 20 ug/m3 (98th percentile)Annual: Approx. 6 ug/m3 (arithmetic mean)
Monitored Background (PM2.5 FRM Sites-northern MN)24hour: 20 to 22 ug/m3 (98th percentile)Annual: ~ 6 to 7 ug/m3 (arithmetic mean)
Results are encouraging
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AREACIRC AREACIRC POSTFILEsPOSTFILEs (Sorted)(Sorted)
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Northern MN PM2.5 (2005Northern MN PM2.5 (2005--2007)2007)
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PM2.5 Modeled Background Test4PM2.5 Modeled Background Test4(Simple Example & Comparison)(Simple Example & Comparison)Traditional (Regular) ApproachExperimental Modeled Approach
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2424--Hour PM2.5 AERMOD Results Hour PM2.5 AERMOD Results traditional background approachtraditional background approach
Modeled Facility = 17 ug/m3Monitored “BKG” = 20 ug/m3Total Impact = 37 ug/m3 (>NAAQS)
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2424--Hour PM2.5 AERMOD Results Hour PM2.5 AERMOD Results experimental background approachexperimental background approach
Modeled Facility = 17 ug/m3Modeled “BKG” = 20 ug/m3Modeled “ALL” = 25 ug/m3 (< NAAQS)
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2424--Hour PM2.5 Background ValuesHour PM2.5 Background Values
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Summary of Preliminary TestsSummary of Preliminary Tests
Goal: reasonable PM2.5 NAAQS modeling resultsHow: paired sums (sources and background)
The Good News: preliminary results are encouragingThe Bad News: experimental only – needs vetting!!The Ugly News: ugly runtimes
AREACIRC with just one receptor:0.1-0.2 hours for Radius = 50,000 meters0.2-0.8 hours for Radius = 500,000 meters2.0-7.0 hours for Radius = 5,000,000 meters
Next Steps: different meteorology/regions, vetting, etc.
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Possible Future WorkPossible Future Work
Different MeteorologyINL, HIB, DLH, MSP, RST, etc.
Different Regions in MNNorthern Minnesota (Rural)Southern Minnesota (Rural)Twin Cities Metro (Urban)
Different StatesIL, IN, MI, MN, OH, WI, etc.
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Possible Vetting SchedulePossible Vetting Schedule
Oct. 22, 2008 – 1st Conference CallEPA Region 5 staffEPA OAQPSEPA Region 5 states (IL, IN, MI, MN, OH, WI)
Nov. 6, 2008 – Upper Midwest A&WMATesting (2008 - 2009)USEPA Vetting (2010)Regulatory Use (????)
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Questions?Questions?
Contact:Dennis Becker at (651) 297-7364 (old phone)Dennis Becker at (651) 757-2217 (new VOIP)
• New phone number – effective November 21, 2008