Multilevel air quality evolution in Shenyang: impact of elevated point emission reduction
编号:40 稿件编号:77 访问权限:公开 更新:2021-07-28 21:37:31 浏览:199次 口头报告

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摘要
Visibility observed at different altitudes is favorable to understand the causes of air pollution. We conducted 4-years of observations of visibility at 2.8 m and 60 m and particulate matter (PM) concentrations from 2015 to 2018 in Shenyang, a provincial city in Northeast China. The results indicated that visibility increased with the increasing height in winter (especially at night), and decreased with height in summer (especially at the daytime). PM concentration exhibited opposite vertical variation to visibility, reflecting that visibility degrades with the increase of aerosol concentration in the air. The radiosonde meteorological data showed that weak turbulence in the planetary boundary layer (PBL) in winter favored aerosols’ accumulation near the surface. Whereas in summer, unstable atmospheric conditions, upper-level moister environment, and regional transport of air pollutants resulted in the deterioration of upper-level visibility. Inter-annual variation in the two-level visibility indicated that the upper-level visibility improved more significantly than low-level visibility, much likely due to the reduction in emission of elevated point sources in Shenyang. Our study suggested that strengthening the control of surface non-point emissions is a promising control strategy to improve Shenyang air quality.
 
关键字
Aerosol pollution, Atmospheric visibility, Planetary boundary layer ,Northeast China, Vertical evolution
报告人
李晓岚
中国气象局沈阳大气环境研究所

稿件作者
李晓岚 中国气象局沈阳大气环境研究所
唐贵谦 中科院大气物理研究所
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