A Comprehensive Observational Based Multiphase Chemical Model Analysis of the Sulfur Dioxide Oxidations in both Summer and Winter
编号:2479
稿件编号:1415 访问权限:仅限参会人
更新:2021-06-21 15:05:05
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摘要
Sulfate is one of the main components of the haze particles and the formation mechanism remains controversial. Lacking of detailed and comprehensive field data hindes the accurate evaluation of relative roles of prevailing sulphate formation pathways. Here, we analyzed the sulfate production rates using a state-of-art multiphase model constrained to the observed concentrations of transition metal ions (TMI), nitrogen dioxide, ozone, hydrogen peroxide, and other important parameters in winter and summer in the North China Plain. Our results showed that aqueous TMI-catalyzed oxidation was the most important pathway followed by the surface oxidation of Mn in both winter and summer, while the hydroxyl and criegee radicals oxidations contribute significantly in summer. In addition, we also modeled the published cases for the fog and cloud conditions. It is found that nitrogen dioxide oxidation is the dominant pathway for the fog in a higher pH range while hydroperoxide and ozone oxidations dominated for the cloud.
关键字
sulfate formation,transition metal ions,field observation,radicals
稿件作者
宋欢
北京大学
陆克定
北京大学
叶灿
北京大学
董华斌
北京大学
李姝乐
北京大学
陈仕意
北京大学
吴志军
北京大学
郑玫
北京大学
曾立民
北京大学
胡敏
北京大学
张远航
北京大学
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