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研究论文

A numerical study on the troposphere photochemical oxidation process of sulfur dioxide over China

摘要：利用一个三维非静力区域大气化学输送模式与中尺度气象模式MM5相连接构成一个数值模拟系统,模拟了中国地区对流层臭氧与其前体物的分布以及二氧化硫转化为硫酸盐的过程,模式包括地面源排放、大气输送和扩散、干沉积、气相化学反应和云雨过程.结果表明:日间,O³浓度主要由NO_x和NMHC的源排放和光化学反应过程支配,大气辐射是光化学反应强弱的决定因子,其强度可使SO₂、O³和SO₄^2-的生

Abstract：A three dimensional non-hydrostatic regional chemical transport model was used to connected to a meso-scale meteorological model (MM5) in order to simulate the distribution of tropospheric ozone and photochemical oxidation processes of sulfur dioxide over China The physics and chemical processes considered in the model involve photochemical mechanism, dynamics transport and diffusion, dry and wet deposition, gas phase and aqueous chemistry The results showed that the concentration of ozone is mainly dominated by the emission of NO_x and photochemical process in daytime, radiation is the decisive factor of strength of photochemical process and may cause the different daily variation of sulfur dioxide and ozone concentrations The results also showed that higher value of ozone will increase the transformation rate of sulfur dioxide to sulfate, but this effect is influenced by the ratio of NMHC to NO_x Higher NMHC concentration will reduce the concentration of OH radical and then decrease the transformation rate of SO₂