气候变化领域集成服务门户(CCPortal): Regional source apportionment of summertime ozone and its precursors in the megacities of Beijing and Shanghai using a source-oriented chemical transport model

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DOI	10.1016/j.atmosenv.2020.117337
	Regional source apportionment of summertime ozone and its precursors in the megacities of Beijing and Shanghai using a source-oriented chemical transport model
	Wang P.; Wang T.; Ying Q.
发表日期	2020
ISSN	1352-2310
卷号	224
英文摘要	The Community Multiscale Air Quality (CMAQ) model with a source-oriented SAPRC-11 photochemical mechanism is developed in this study to quantify the source region contributions to surface O3 in Beijing and Shanghai in August 2013. Non-background O3 attributed to NOx (O3_NOx) and volatile organic compounds (O3_VOC) emitted from different source regions is determined using a three-regime approach that correctly attributes O3 to NOx and VOC precursors throughout the entire range of NOx-VOC-O3 formation sensitivity. Averaged over the entire month and all grid cells, local emissions (51%) and emissions from Hebei (31%) are the two major contributors to non-background daily maximum 8-h (DM8H) O3 in Beijing. In Shanghai, local, Zhejiang and Jiangsu emissions account for 53%, 19% and 14% of the non-background DM8H O3. Significant variations in local emission contributions are predicted among different model grid cells for both cities (Beijing, 6–80%; Shanghai, 3–76%). On high O3 days in Beijing, the wind is persistently from the south with high wind speed (~5 m s−1) in the evening and night. This leads to significant regional contributions of O3 from Hebei, along with regional transport of VOCs and NOx. In Shanghai, high O3 days are associated with southwesterly/westerly wind in the morning, rotating to southeast in the early afternoon in a counter-clockwise direction. The surface wind then gradually turns back to southwest in the afternoon until the next morning, along with reduced wind speed. In Shanghai, daytime O3 at the urban center is almost entirely due to local emissions. Low wind speed in the evening and night time allows local NOx emissions to efficiently titrate regional O3. In both cities, NOx emissions are not transported regionally as efficiently as VOCs. Source region contribution analysis of the concentration weighted maximum incremental reactivity (CWMIR) shows that VOCs from other regions are less reactive than locally emitted VOCs. HCHO and acetaldehyde (CCHO) generated from the oxidation of other VOCs are important contributors to regionally transported reactive VOCs. In both regions, the overall CWMIR in both cities is quite similar (~4 mol O3 per mole of VOC). © 2020 Elsevier Ltd
关键词	Emission Nitrogen oxides Photochemical model Regional transport Volatile organic compounds
语种	英语
scopus关键词	Air quality; Neutron emission; Transport properties; Volatile organic compounds; Wind; Chemical transport models; Community multi-scale air qualities; Contribution analysis; Counter-clockwise; Maximum incremental reactivities; Photochemical mechanism; Photochemical modeling; Regional transport; Nitrogen oxides; acetaldehyde; nitrogen oxide; ozone; volatile organic compound; air quality; atmospheric modeling; emission; nitrogen oxides; ozone; photochemistry; source apportionment; urban pollution; volatile organic compound; Article; carbon footprint; chemical analysis; China; city; grid cell; precursor; predictive value; priority journal; sensitivity analysis; summer; surface property; wind speed; Beijing [China]; China; Shanghai
来源期刊	ATMOSPHERIC ENVIRONMENT
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/249303
作者单位	Department of Civil and Environmental Engineering, Hong Kong Polytechnic University99907, Hong Kong; Zachry Department of Civil and Environmental Engineering, Texas A&M University, College Station, TX 77843-3136, United States
推荐引用方式 GB/T 7714	Wang P.,Wang T.,Ying Q.. Regional source apportionment of summertime ozone and its precursors in the megacities of Beijing and Shanghai using a source-oriented chemical transport model[J],2020,224.
APA	Wang P.,Wang T.,&Ying Q..(2020).Regional source apportionment of summertime ozone and its precursors in the megacities of Beijing and Shanghai using a source-oriented chemical transport model.ATMOSPHERIC ENVIRONMENT,224.
MLA	Wang P.,et al."Regional source apportionment of summertime ozone and its precursors in the megacities of Beijing and Shanghai using a source-oriented chemical transport model".ATMOSPHERIC ENVIRONMENT 224(2020).