Analysis of dust weather pollution characteristics and transmission paths in Changzhi, China
DENG Meng-jie, YAN Yu-long, HU Dong-mei, DUAN Xiao-lin, LIU Zhuo-cheng, PENG Lin
Key Laboratory of Resources and Environmental System Optimization, Ministry of Education, College of Environmental Science and Engineering, North China Electric Power University, Beijing 102206, China
Abstract:Three dust pollution processes in Changzhi were investigated. Typical pollution characteristics and transmission paths of dust weather in Changzhi were studied through analyzing the PM2.5 and PM10 concentrations, water-soluble ion components, meteorological conditions and aerosol optical characteristics. There were 8 days of dust weather in Changzhi in 2018. April was the most serious polluted month with 5days of dust weather and this was related to the adjustment of atmospheric circulation in spring and the frequent activities of warm and cold air. Before the occurrence of dust weather, atmosphere in Changzhi was affected by the cold air from west or northwest. The atmospheric stratification was unstable and the atmospheric circulation turned into meridional circulation, with an average wind speed of more than 4m/s. During the dust pollution process, the ratio of PM2.5/PM10 was lower than 0.3. The coarse particles made up a large part in the ambient air. The proportion of total water-soluble ions in PM2.5 was decreased, and the concentration of Ca2+ was 4times higher than that before dust pollution. The dust was transported near the ground in winter, while transported at high altitude in spring and summer. The important potential sources of dust in Changzhi city were desert areas in Mongolia, central Kazakhstan and central and northern Xinjiang. The transmission paths were generally northwest path and northern path. There were two routes in the northwest path:Kazakhstan-north central Xinjiang-west Inner Mongolia-Changzhi and north central Xinjiang-west Inner Mongolia-Changzhi. The northern route was Mongolia-central Inner Mongolia-northern Shanxi-Changzhi.
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