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Volume 38 Issue 3
Jun.  2020
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Article Contents
DING Shu-qin, WU Jia-ping, WAN Xue-ping, JIANG Lin, ZHAO Xue-ting, SHA Dan-dan. ANALYZE ON PM2.5 AND ITS MAIN CHEMICAL COMPOSITION DURING TYPICAL HEAVY AIR POLLUTION IN AUTUMN AND WINTER IN CHANGSHU[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(3): 142-147,161. doi: 10.13205/j.hjgc.202003024
Citation: DING Shu-qin, WU Jia-ping, WAN Xue-ping, JIANG Lin, ZHAO Xue-ting, SHA Dan-dan. ANALYZE ON PM2.5 AND ITS MAIN CHEMICAL COMPOSITION DURING TYPICAL HEAVY AIR POLLUTION IN AUTUMN AND WINTER IN CHANGSHU[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(3): 142-147,161. doi: 10.13205/j.hjgc.202003024

ANALYZE ON PM2.5 AND ITS MAIN CHEMICAL COMPOSITION DURING TYPICAL HEAVY AIR POLLUTION IN AUTUMN AND WINTER IN CHANGSHU

doi: 10.13205/j.hjgc.202003024
  • Received Date: 2019-07-12
  • Based on the hourly data provided by Changshu Environmental Monitoring Station and chemical composition data of PM2.5 and lidar monitoring data from November 21st to December 5th in 2018, the pollution characteristics of PM2.5 and its main chemical composition (water-soluble ions) in a heavy pollution process in Changshu were systematically analyzed. The results showed that Changshu occurred a continuous heavy pollution process from November 24th to December 3rd, the high PM2.5 concentration mainly occured in higher humidity, lower wind and lower boundary layer weather conditions, and the PM2.5 concentration was positively correlated with humidity. Accumulation of local pollution under adverse diffusion condition, the increase of moisture absorption of particulate matter under high humidity conditions and secondary transformation were the main causes of pollution. During the observation period, secondary ions(NO3-、NH4+、SO42-)accounted for a higher proportion (as high as 97%) of water-soluble ions, especially in the pollution period, which was greatly affected by secondary formation, and NO3- accounted for the highest proportion of water-soluble ions. During the whole analysis period, the mean values of SOR and NOR were 0.38 and 0.22, and the values increased significantly during the pollution period, reaching 0.47 and 0.32, respectively. The cumulative growth rates of NO3-, SO42- were higher than those of CO only in the pollution period, and the concentration of NO3- was higher than SO42-, which indicated the pollution was mainly affected by the secondary generation of NO2. It was necessary to strengthen the control of industrial emission sources and motor vehicle exhaust sources during heavy pollution period.
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