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Performance of CMAQ for Inorganic Aerosol Compounds in Greater Tokyo

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Presentation on theme: "Performance of CMAQ for Inorganic Aerosol Compounds in Greater Tokyo"— Presentation transcript:

1 Performance of CMAQ for Inorganic Aerosol Compounds in Greater Tokyo
Hiroshi HAYAMI Central Research Institute of Electric Power Industry and Tatsuya SAKURAI Tokyo University of Science

2 Acknowledgements National Institute of Environmental Studies
Shinji Kobayashi and Shinji Wakamatsu Japan Clean Air Program of Petroleum Energy Center Tazuko Morikawa Institute of Behavioral Sciences Akiyoshi Kan-nari and Tsuyoshi Baba Fujitsu FIP Corp. Noritaka Furuhashi, Izumi Ikeuchi and Hisashi Tashiro

3 Aerosol pollution in G.Tokyo
PM mass averages SPM* by beta gauge ~ 40 µg m-3 >40 % stations violated the standard in the 1990s PM2.5 by TEOM ~ µg m-3 > US std. high in early summer and early winter Composition of SPM carbon(EC/OC) ~ 30 % inorganic species ~ 30 % *SPM: PM with 100% cut at 10 µm ~ PM7

4 Our studies with CMAQ for G.T.
budget of ammonia long-term (one year) episodes of inorganic aerosols 2 to 3 days in summer and winter presented by Sakurai in poster session presented from now

5 Study Domains for SIA in G.T.
D0(East Asia) @45 km D1(C. Japan) @15 km D2(G. Tokyo) @5 km MM5 CMAQ no interaction two-way initial and boundary conditions

6 Model Options & Configurations
MM5 V3.6-1 35 layers; ~25 m in the lowest layer FDDA with JMA’s RANAL (20km, 12hrs.) Grell, MRF, simple ice, multi-layer soil CMAQ (MCIP 2.1) 16 layers; identical to MM5 in PBL CB4-AE3-AQ solved with MEBI CMAQ dry and RADM-cloud wet dep. ACESS for E.Asia and NIES/JCAP for GT

7 Emission inventory (NIES/JCAP)
SOx [ton day-1] NOx [ton day-1] condensed dust [ton day-1]

8 CMAQ vs. field campaigns
WINTER Dec. 9 to 10, 1999 SUMMER Jul.31 to Aug.1,2001 T,RH,WS,WD Tokyo, Kumagaya, Tateyama NO2, SO2, O3 Fukaya, Yokosuka Tokyo(Komae) Kumagaya NMHC composition Fukaya particulate NO3-, NH4+, SO42- gaseous HNO3, NH3

9 Winter: at Fukaya Gas Aerosol (FP) F Y obs. CMAQ obs. CMAQ NO2 [ppb]
NO3- [µg m-3] SO2 [ppb] SO42- [µg m-3] O3 [ppb] NH4+ [µg m-3] Dec. 9 Dec. 10 Dec. 9 Dec. 10

10 Winter: at Yokosuka Gas Aerosol (FP) F Y obs. CMAQ obs. CMAQ NO2 [ppb]
NO3- [µg m-3] SO2 [ppb] SO42- [µg m-3] O3 [ppb] NH4+ [µg m-3] Dec. 9 Dec. 10 Dec. 9 Dec. 10

11 Winter contour: PM [µg m-3]
18:00 Dec. 9, 1999 18:00 Dec. 10, 1999 observed CMAQ observed CMAQ not good “observed” SPM(~PM7) vs. “calculated” PM2.5 SPM = SIA + EC + OC + Cl- +… PM2.5 in CMAQ

12 Summer: Gas at Tokyo better than winter K T obs. CMAQ NO2 [ppb]
SO2 [ppb] O3 [ppb] better than winter Jul. 31 Aug. 1

13 Summer: SIA at Tokyo K T NO3- [µg m-3] NH4+[µg m-3] SO42-[µg m-3]
obs. CMAQ NO3- [µg m-3] NH4+[µg m-3] SO42-[µg m-3] particulate 12 12 Jul. 31 Aug. 1 gaseous 12 12 12 12 Jul. 31 Aug. 1 Jul. 31 Aug. 1

14 Summer contour: PM much better than winter
12:00 Jul. 31, 2001 12:00 Aug. 1, 2001 observed CMAQ observed CMAQ much better than winter summer SPM mainly made of SIA

15 Summary CMAQ is fine to improve the performance…
secondary > primary products summer > winter to improve the performance… Cl- and SOA (winter) better boundary concentrations (SO2 & SO42-) alter the gas-aerosol partitioning of NO3- and NH4+

16 under testing CMAQ with...
HCl/Cl-, important in winter aerosol emission, deposition and gas-aerosol reaction coarse aerosol nitrate and chloride gas/coarse aerosol reaction upper boundary free-tropospheric ozone sulfate formation on aerosol surface heterogeneous reaction of SO2

17 SO2-to-SO42-(p) conversion
homogeneous + nucleation SO2 + OH => H2SO4(g) H2SO4(g) => SO42-(p) aqueous chemistry in cloud water SO2 + cw => SO42-(aq) SO42-(aq) => SO42-(p) heterogeneous chemistry SO2 + aerosol surface => SO42-(p)


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