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EANET activities and the applicability to model development. Kazuhide Matsuda ADORC. EANET monitoring sites (2001). Major monitoring parameters (2001). Wet deposition (major ions): 41 sites SO 2 : 28 sites O 3 : 12 sites (Japan and Thailand) PM 10 : 14 sites (China and Japan)
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EANET activities and the applicability to model development Kazuhide Matsuda ADORC
Major monitoring parameters (2001) • Wet deposition (major ions): 41 sites • SO2 : 28 sites • O3 : 12 sites (Japan and Thailand) • PM10 : 14 sites (China and Japan) • PM2.5 : 2 sites (Japan) • Aerosol components, Total nitrate (nitrate + HNO3), total ammonia (NH4+ + NH3) : 12 sites
Publications of EANET data • The “Procedures on Data and Information Disclosure for the Acid Deposition Monitoring Network in East Asia (EANET)”. • Disclosed data are available for the model validations. • Following reports are currently opened to the publish. • “Report on the Acid Deposition Monitoring of EANET during the Preparatory Phase” • “Data Report on the acid deposition in the East Asian region 2000”
Procedures of data verifications National Centers Data ADORC (Network Center) Data Verification Group Senior Technical Manager`s Meeting Science Advisory Committee Meeting (Inter Governmental Meeting)
Relevant activities • QA/QC activities • Inter-laboratory Comparison Projects • Data Verification Programs • Training programs • ADORC individual training • JICA group training • Research activities on monitoring methodologies • Joint Researches between ADORC and participating countries • ADORC Technical Missions
Model development in ADORC “ Regional Air Quality Model (RAQM)” • 3D Eulerian model for regional scale • Terrain following height coordinate • Model Resolution • Horizontal grids: 1°×1° • Vertical extent: 8 layers (0.05, 0.3, 0.75, 1.5, 2.75, 4.5, 6.5, 8.75km) • Gas-Phase Chemical Mechanism • CBM-IV mechanism • 32 species and 52 chemical reactions • Wet Deposition • Scavenging ratios • Dry Deposition • Wesely’s parameterization scheme • Dust and Sea salt Modules • Dust (Kosa) and sea spray droplets (sea salts) emissions
Monthly wet deposition calculated by RAQM nss-SO42- NO3- NH4+ Period: April 1999 Unit: m mol/m2/month
Influence of Miyakejima Volcano • Monthly concentration changes (%) of SO2 (A) and sulfate (B) near the surface, September 2000 A B
Comparison between observed and calculated values of sulfate (non sea salt) concentration in rainwater (April, 1999)
Comparison between observed and calculated values of nitrate in rainwater. (April, 1999)
Underestimation? nss-SO42- NH3+ Sado, Dec.
nss-SO42- Inter-laboratory comparison • Sample No. 1 High concentration • Sample No. 2 Low concentration NH3+
Sulfate concentration in precipitation at Sado station nssSO42- = SO42- – (SO4/Na)sw x Na+
Comparison study on monitoring methodologies Particulate sulfate Particulate nitrate
Perspectives of the Phase II • Long-term simulation and source-receptor analysis; • Expanding the chemical species such as sulfur, nitrogen, aerosols, ground-level ozone and • Individual episodes that are of special interest for gaining insights into important conditions in Asia (e.g., yellow-sand and high ozone episodes).
Simulation cases • Case 1 March 2002 • Yellow sand and high ozone episodes • Case 2 July 2001 • Warm and high precipitation • High SO2 episode in Japan • Case 3 December 2001 • Cold and low precipitation • Case 4 March 2002 • Inter-annual comparison with March 2001. • One of the tasks on the LTP project
Plan of the 1st attempt Met. fields Dr. Z. Wang Initial condition Dr. T. Holloway • Announcement March 2003 Inventories Dr. Street Monitoring data Dr. Matsuda Data set Modelers Model simulations Results Inventory comparison 6th WS Compiling data set Study group Joint papers