中国克拉玛依高新区VOCs污染特征及来源解析
DOI: http://dx.doi.org/10.12349/ees.v5i6.2807
Article ID: 2807
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Chen, S., Wang, H., Lu, K., et al. The trend of surface ozone in Beijing from 2013 to 2019: Indications of the persisting strong atmospheric oxidation capacity[J]. Atmos. Environ,2020(242):117801.
Wu, R., Xie, S. Spatial Distribution of Ozone Formation in China Derived from Emissions of Speciated Volatile Organic Compounds. Environ[J]. Sci. Technol,2017,51(5):2574-2583.
Wu, R., Xie, S. Spatial Distribution of Secondary Organic Aerosol Formation Potential in China Derived from Speciated Anthropogenic Volatile Organic Compound Emissions[J]. Environ. Sci. Technol, 2018,52(15):8146-8156.
Yuan, B., Hu, W. W., Shao, M., et al. VOC emissions, evolutions and contributions to SOA formation at a receptor site in eastern China[J]. Atmospheric Chemistry and Physics, 2013,13(17):8815-8832.
Liang, X., Sun, X., Xu, J. Improved emissions inventory and VOCs speciation for industrial OFP estimation in China. Sci[J]. Total Environ,2020(745):140838.
Wu, R., Bo, Y., Li, et al. Method to establish the emission inventory of anthropogenic volatile organic compounds in China and its application in the period 2008-2012 Atmos[J]. Environ,2016(127):244-254.
Simayi, M., Shi, Y., Xi, Z. et al . Emission trends of industrial VOCs in China since the clean air action and future reduction perspectives[J].Sci. Total Environ,2022(826):153994.
Simayi, M., Hao, Y., Li, J., et al. Establishment of county-level emission inventory for industrial NMVOCs in China and spatial-temporal characteristics for 2010-2016[J]. Atmos. Environ, 2019(211):194-203.
Sha Q E, Zhu M N, Huang H W, et al. A newly integrateddataset of volatile organic compounds(VOCs) source profiles implications for the future development of VOCs profiles in China[J]. Science of the Total Environment, 2021,793.
Zhang Y N, Xue L K, Carter W P L, et al. Development ofozone reactivity scales for volatile organic compounds in a Chinesemegacity[J]. Atmospheric Chemistry and Physics,2021, 21(14):11053-11068.
Venecek M A, Carter W P L, Kleeman M J. Updating theSAPRC maximum incremental reactivity MIR scale for theUnited States from 1988 to 2010[J]. Journal of the Air & WasteManagement Association,2018,68(12):1301-1316.
Carter W P L. Development of ozone reactivity scales for volatileorganic compounds[J]. Air & Waste,1994,44(7):881-899.
刘齐,卢星林,曾鹏,等.柳州市春季大气挥发性有机物污染特征及源解析[J].环境科学,2021,42(1):65-74.
孙瑞,邓国庆.徐州市城区大气挥发性有机物的污染特征和臭氧生成潜势研究[J].环境科学与管理,2022,47(3):130-134.
唐孝炎,张远航,邵敏.大气环境化学[M].第2版.北京:高等教育出版社,2006.
Brown S G, Frankel A, Hafner H R. Source apportionment of VOCs in the Los Angeles area using positive matrix factorization[J]. Atmospheric Environment,2007,41(2):227-237.
苏雷燕.上海市城区大气VOCs的变化特征及反应活性的初步研究[D].上海:华东理工大学,2012.
Na K, Kim Y P. Seasonal characteristics of ambient volatile organic compounds in Seoul, Korea[J]. Atmospheric Environment,2001,35(15):2603-2614.
邹宇,邓雪娇,王伯光,等.广州番禺大气成分站挥发性有机物的污染特征[J].中国环境科学,2013,33(5):808-813.
Guo H, Lee S C, Louie P K K, et al. Characterization of hydrocarbons,halocarbons and carbonyls in the atmosphere of Hong Kong[J]. Chemosphere,2004,57(10):1363-1372.
Kim E, Hopke P K, Edgerton E S. Source identification of Atlanta aerosol by positive matrix factorization[J]. Journal of the Air & Waste Management Association,2003,53(6):731-739.
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