Establishing a conceptual model for photochemical ozone pollution in subtropical Hong Kong

详细信息    查看全文

• 作者：Z.H. Ling^a ; H. Guo^a ; ^{ceguohai@polyu.edu.hk} ; J.Y. Zheng^b ; P.K.K. Louie^c ; H.R. Cheng^d ; F. Jiang^e ; K. Cheung^a ; L.C. Wong^a ; X.Q. Feng^b
• 关键词：Conceptual model ; Ozone ; Regional ; Super-regional ; Hong Kong
• 刊名：Atmospheric Environment
• 出版年：2013
• 出版时间：September, 2013
• 年：2013
• 卷：76
• 期：Complete
• 页码：208-220
• 全文大小：4941 K

文摘

Photochemical ozone (O₃) formation is related to its precursors and meteorological conditions. A conceptual model of O₃ air pollution is developed based on the analysis of data obtained at Tung Chung (TC) in Hong Kong. By comparing meteorological parameters between O₃ and non-O₃ episode days, it was found that high temperatures, strong solar radiation, low wind speeds and relative humidity, northeasterly and/or northwesterly prevailing winds were favorable for the O₃ formation, while tropical cyclones were most conducive to the occurrence of O₃ episodes. Backward trajectories simulation and graphical illustration of O₃ pollution suggested that super-regional (i.e. central and eastern China) and regional (i.e. Pearl River Delta, southern China) transport was another factor that contributed to high O₃ levels in Hong Kong. The photochemical O₃ formation, generally VOC-limited in Hong Kong, was controlled by a small number of volatile organic compounds (VOCs). Furthermore, the positive matrix factorization (PMF) simulation suggested that solvent usage and vehicular emissions are the major contributors to ambient VOCs in Hong Kong. Finally, this paper presents recommendations for further O₃ research and implementation of O₃ control strategies.