Unexpected fast radical production emerges in cool seasons: implications for ozone pollution control

Ozone is a crucial air pollutant that damages human health and vegetation. As it is related to the photo-oxidation of the nitrogen oxides and volatile organic compounds, the summertime reduction of these precursors is the primary focus of current ozone mitigation strategies. During ozone pollution e...

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Published inNational Science Open Vol. 1; no. 2; p. 20220013
Main Authors Wang, Hongli, Liu, Yanhui, Chen, Xiaorui, Gao, Yaqin, Qiu, Wanyi, Jing, Shengao, Wang, Qian, Lou, Shengrong, Edwards, Peter M., Huang, Cheng, Lu, Keding
Format Journal Article
LanguageEnglish
Published Science Press 01.04.2022
Subjects
air pollution
OH radical
ozone
photochemistry
VOCs
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Summary:Ozone is a crucial air pollutant that damages human health and vegetation. As it is related to the photo-oxidation of the nitrogen oxides and volatile organic compounds, the summertime reduction of these precursors is the primary focus of current ozone mitigation strategies. During ozone pollution episodes in eastern China, an observed accumulation of daily total oxidants (Ox=NO2+O3) in cool seasons (spring and autumn: 60 ppb and winter 40 ppb) is comparable to that in summer (60 ppb), indicating fast photochemical production of secondary pollutants including ozone over the year. Unrecognized fast radical primary productions are found to counteract the increased termination of hydroxyl radical and unfavorable meteorological conditions to maintain the rapid total oxidant formations in cool seasons. Elucidating and regulating the primary radical sources may be critical for the secondary air pollution control in cool seasons.
ISSN:2097-1168
DOI:10.1360/nso/20220013