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VISTAS Modeling Overview Oct. 29, 2003 pat.brewer@ncmail

VISTAS Modeling Overview Oct. 29, 2003 pat.brewer@ncmail.net. VISTAS is evaluating visibility and sources of fine particulate mass in the Southeastern US. View NE from Appalachian Trail, Mt. Cammerer, Great Smoky Mtns. VISTAS - Regional Haze Timeline. PM 2.5 Designation Mar 2004.

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VISTAS Modeling Overview Oct. 29, 2003 pat.brewer@ncmail

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  1. VISTAS Modeling Overview Oct. 29, 2003 pat.brewer@ncmail.net

  2. VISTAS is evaluating visibility and sources of fine particulate mass in the Southeastern US View NE from Appalachian Trail, Mt. Cammerer, Great Smoky Mtns.

  3. VISTAS - Regional Haze Timeline PM2.5 Designation Mar 2004 PM2.5 & Haze SIPs Dec 2007 Regional Haze Rule 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 BART Sources VISTAS Planning Strategy Design Reasonable Progress Goals Policy Interpretation Air Quality Monitoring Baseline and natural conditions Base year and future year strategies Emissions Inventory Base year and future year air quality Atmospheric Modeling States Develop Haze SIPs

  4. VISTAS Science Supports Regulatory Decisions Air Quality Air Quality Responses to Emission Controls • gases • particles • deposition • visibility • Atmospheric • Model: • Chemistry • Transport • Deposition Meteorology • topography Policy Interpretation Emissions • anthropogenic • biogenic

  5. 2001 Annual Average Light Extinction Mm-1 From VIEWS website

  6. 250 200 Coarse Soil 150 Organics EC 100 NH3NO3 (NH4)2SO4 Rayleigh 50 0 Light Extinction on 20% Haziest Days - IMPROVE 1998 - 2001 Extinction (Mm-1) Sipsey, AL Everglades, FL Dolly Sods, WV Okefenokee, GA Shenandoah, VA Cape Romain, SC Shining Rock, NC Swan Quarter, NC Linville Gorge, NC Mammoth Cave, KY Chassahowitzka, FL James Rvier Face, VA Great Smoky Mtns, TN

  7. SO2 Point Sources >5,000 Tons per year 1999 National Emissions Inventory v 2 Annual SO2 emissions 250,000 125,000 25,000

  8. VISTAS Air Quality Modeling Objectives: • Accurately represent meteorology, emissions, and air quality • MM5, SMOKE, CMAQ • Model base year to support both regional haze and PM2.5regulatory requirements • Model future year and control strategies for regional haze • states responsible for PM2.5attainment demonstrations

  9. VISTAS Air Quality Modeling • Phase I: Evaluate different model configurations for 3 episodes: Jan 02, July 99, July 01 • recommend annual modeling protocol Jan 04 • Phase Ib: Evaluate emissions sensitivities • Decoupled Direct Method (DDM) to support design of emissions control strategies - Sept 04 • Phase II: Annual regional modeling • base year modeling begins Jan 04 • control strategy runs completed by June 05

  10. VISTAS Modeling Contracts • Meteorological Modeling • Baron Applied Meteorological Systems • Emissions, and Air Quality Modeling • Environ International Corporation • University of California – Riverside • Alpine Geophysics • Emissions sensitivities using DDM for aerosols • Georgia Institute of Technology

  11. VISTAS 36-km and 12-km CMAQ Modeling Domains

  12. Initial CMAQ Model Configuration CMAQ Version 4.3 (August 2003) • Horizontal Advection and Vertical Advection • Piecewise Parabolic Method (PPM) • Gas-Phase Chemistry: CB-IV with MEBI/Hertel Solver • Aerosol Chemistry: AE3 / ISORROPIA / SORGAM • Aqueous-Phase Chemistry: RADM • Dry Deposition: Pleim-Xiu • MM5 Configuration: • Pleim-Xiu/ACM Soil/PBL models with MCIP2.2 Pass Through • SMOKE Emissions: NEI 1999 v2 with CMU NH3

  13. CMAQ Sensitivity Tests: 3 episodes • Vertical Layers: 19 vs 34 layers • Boundary Conditions: Ultra Clean, GEOS-CHEM • Ammonia Emissions: Jan 50% reduction, diurnal pattern • Vertical Diffusivity - Minimum Kz: 0.1 or 1.0 m2/s • Alternative meteorology - with Wesley Dry Deposition • SAPRC-99 chemistry • CB-2002 chemistry • CB-AIMS chemistry with sectional approach • Best and Final CMAQ configuration • CAM-x trial with comparable configuration

  14. Emissions Sensitivities Objectives • Install DDM-AERO in CMAQ • DDM gas-phase already in CMAQ • Demonstrate DDM-AERO performance • “Limits of linearity” for each pollutant • Apply DDM-AERO to evaluate emissions changes: • Point SO2, Area SO2, Point NOx, Mobile NOx, Area NH3... • States, regions, boundary conditions • Test options to revise CMAQ code to improve model efficiency

  15. Meteorological, Emissions, and Air Quality Modeling Deliverables Draft 08/18/03 Jan-Mar 2004 Define BART sources June 2004 Identify BART controls Dec 2003: Revised Em Inv Base 2002 Mar 2004: Draft Em Inv 2018 July 2004: Revised State Em Inv Base 2002 Sept 2004: Revised Em Inv 2018 Oct-Dec 2004: Control Strategy Inventories Aug 2003: Emissions Inventory Base 2002 Dec 2003: Met, Em, AQ model testing 3 episodes Jan 2004: Modeling Protocol Sept 2004: Annual Base Year Model Runs Dec 2004: Annual Run 2018 Jan 2005: Sensitivity Runs 2018 episodes Jan-Jun 2005: Control Strategy Runs 2018 Oct 2004: Sensitivity Runs 2018 3 episodes July-Dec 2005: Observations Conclusions Recommendations Apr 2004: DDM in CMAQ Mar 2004: CART:select sensitivity episodes Optional Optional State Regulatory Activities Before Jun 2005 Other Inventory: e.g. Power Plant Turnover After Jun 2005 Model Runs: e.g. Power Plant Turnover

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