Department of Atmospheric and Oceanic Sciences, School of Physics, Peking University, Beijing 100871, China.
State Environmental Protection Key Laboratory of Integrated Surface Water-Groundwater Pollution Control, School of Environmental Science and Engineering, Southern University of Science and Technology, Shenzhen, Guangdong 518055, China.
Environ Sci Technol. 2021 May 4;55(9):5752-5762. doi: 10.1021/acs.est.1c00131. Epub 2021 Apr 23.
Effective mitigation of surface ozone pollution entails detailed knowledge of the contributing precursors' sources. We use the GEOS-Chem adjoint model to analyze the precursors contributing to surface ozone in the Beijing-Tianjin-Hebei area (BTH) of China on days of different ozone pollution severities in June 2019. We find that BTH ozone on heavily polluted days is sensitive to local emissions, as well as to precursors emitted from the provinces south of BTH (Shandong, Henan, and Jiangsu, collectively the SHJ area). Heavy ozone pollution in BTH can be mitigated effectively by reducing NO (from industrial processes and transportation), ≥C alkenes (from on-road gasoline vehicles and industrial processes), and xylenes (from paint use) emitted from both BTH and SHJ, as well as by reducing CO (from industrial processes, transportation, and power generation) and ≥C alkanes (from industrial processes, paint and solvent use, and on-road gasoline vehicles) emissions from SHJ. In addition, reduction of NO, xylene, and ≥C alkene emissions within BTH would effectively decrease the number of BTH ozone-exceedance days. Our analysis pinpoint the key areas and activities for locally and regionally coordinated emission control efforts to improve surface ozone air quality in BTH.
有效缓解地表臭氧污染需要详细了解贡献前体物的来源。我们使用 GEOS-Chem 伴随模型,分析了 2019 年 6 月不同臭氧污染严重程度日北京-天津-河北(BTH)地区地表臭氧的前体物。研究发现,BTH 重度污染日的臭氧对本地排放以及 BTH 南部省份(山东、河南和江苏,统称 SHJ 地区)排放的前体物均较为敏感。通过减少 BTH 和 SHJ 的 NO(来自工业过程和交通运输)、≥C 烯烃(来自道路汽油车和工业过程)和二甲苯(来自涂料使用)以及减少 CO(来自工业过程、交通运输和发电)和 SHJ 的≥C 烯烃(来自工业过程、涂料和溶剂使用以及道路汽油车)排放,可以有效缓解 BTH 的重度臭氧污染。此外,减少 BTH 内部的 NO、二甲苯和≥C 烯烃排放将有效减少 BTH 臭氧超标天数。我们的分析明确了关键地区和活动,以进行本地和区域协调的排放控制工作,改善 BTH 的地表臭氧空气质量。
