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Atmospheric Volatile Organic Compounds in a Typical Urban Area of Beijing: Pollution Characterization, Health Risk Assessment and Source Apportionment
by
Yizhen Chen
, Fang Bi
, Hao Zhang
, Weiqi Zhang
, Jian Gao
, Yujie Zhang
, Xuezhong Wang
, Qingzhu Zhang
, Hong Li
, Qi Cheng
, Fahe Chai
, Lingshuo Meng
, Fenmei Xia
, Ting Yang
in
Aerosols
/ Air
/ Air pollution
/ Air quality
/ Alkanes
/ Alkenes
/ Area
/ Aromatic compounds
/ Aromatic hydrocarbons
/ atmospheric VOCs; ambient levels; variations; ozone formation potential (OFP); secondary organic aerosol formation potential (SOAFP); risk assessment; source apportionment; Beijing
/ Benzene
/ Cancer
/ Carcinogens
/ Flame ionization detectors
/ Gas chromatography
/ Halogenated hydrocarbons
/ Health risk assessment
/ Health risks
/ Hydrocarbons
/ Ionization
/ Ozone
/ Pollution control
/ Pollution sources
/ Risk assessment
/ Secondary aerosols
/ Urban areas
/ Vehicle emissions
/ VOCs
/ Volatile organic compounds
/ Volatile organic compounds in atmosphere
2017
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Atmospheric Volatile Organic Compounds in a Typical Urban Area of Beijing: Pollution Characterization, Health Risk Assessment and Source Apportionment
by
Yizhen Chen
, Fang Bi
, Hao Zhang
, Weiqi Zhang
, Jian Gao
, Yujie Zhang
, Xuezhong Wang
, Qingzhu Zhang
, Hong Li
, Qi Cheng
, Fahe Chai
, Lingshuo Meng
, Fenmei Xia
, Ting Yang
in
Aerosols
/ Air
/ Air pollution
/ Air quality
/ Alkanes
/ Alkenes
/ Area
/ Aromatic compounds
/ Aromatic hydrocarbons
/ atmospheric VOCs; ambient levels; variations; ozone formation potential (OFP); secondary organic aerosol formation potential (SOAFP); risk assessment; source apportionment; Beijing
/ Benzene
/ Cancer
/ Carcinogens
/ Flame ionization detectors
/ Gas chromatography
/ Halogenated hydrocarbons
/ Health risk assessment
/ Health risks
/ Hydrocarbons
/ Ionization
/ Ozone
/ Pollution control
/ Pollution sources
/ Risk assessment
/ Secondary aerosols
/ Urban areas
/ Vehicle emissions
/ VOCs
/ Volatile organic compounds
/ Volatile organic compounds in atmosphere
2017
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Do you wish to request the book?
Atmospheric Volatile Organic Compounds in a Typical Urban Area of Beijing: Pollution Characterization, Health Risk Assessment and Source Apportionment
by
Yizhen Chen
, Fang Bi
, Hao Zhang
, Weiqi Zhang
, Jian Gao
, Yujie Zhang
, Xuezhong Wang
, Qingzhu Zhang
, Hong Li
, Qi Cheng
, Fahe Chai
, Lingshuo Meng
, Fenmei Xia
, Ting Yang
in
Aerosols
/ Air
/ Air pollution
/ Air quality
/ Alkanes
/ Alkenes
/ Area
/ Aromatic compounds
/ Aromatic hydrocarbons
/ atmospheric VOCs; ambient levels; variations; ozone formation potential (OFP); secondary organic aerosol formation potential (SOAFP); risk assessment; source apportionment; Beijing
/ Benzene
/ Cancer
/ Carcinogens
/ Flame ionization detectors
/ Gas chromatography
/ Halogenated hydrocarbons
/ Health risk assessment
/ Health risks
/ Hydrocarbons
/ Ionization
/ Ozone
/ Pollution control
/ Pollution sources
/ Risk assessment
/ Secondary aerosols
/ Urban areas
/ Vehicle emissions
/ VOCs
/ Volatile organic compounds
/ Volatile organic compounds in atmosphere
2017
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Atmospheric Volatile Organic Compounds in a Typical Urban Area of Beijing: Pollution Characterization, Health Risk Assessment and Source Apportionment
Journal Article
Atmospheric Volatile Organic Compounds in a Typical Urban Area of Beijing: Pollution Characterization, Health Risk Assessment and Source Apportionment
2017
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Overview
Atmospheric volatile organic compounds (VOCs) measurement was carried out using gas chromatography-flame ionization detector (GC-FID) technique (Airmo VOCs online analyzer) in a typical urban area in Beijing from April 2014 to January 2015. Ambient levels, variation characteristics and influential factors contributing to the formation of near-ground-ozone and secondary organic aerosols as well as health risk assessment of VOCs were analyzed. Based on these analyses, the important VOC species that should be given more attention for pollution control were identified and the source apportionment of VOCs was made. Suggestions for VOCs pollution control countermeasures were put forward. The annual average concentration of 84 VOCs was 119 μg·m−3 and the hourly mean concentration was 9.11–567 μg·m−3. Ambient level of VOCs in Beijing has been alleviated in recent years, but is still severe compared to some other cities. VOCs with the largest proportion were alkanes in spring and halogenated hydrocarbons in summer, autumn and winter. The variation of 84 VOCs concentrations was consistent with that of the ambient air quality index, indicating that VOCs had a strong influence on ambient air quality. Influenced by the concentration and activity of VOCs, the largest contribution to ozone formation potential and secondary organic aerosol formation potential came from alkenes and aromatic hydrocarbons, respectively. Five VOCs species such as benzene pose carcinogenic risk to exposed populations. Contrary to some previous studies, benzene was found to have potential cancer risk in some urban areas in China. The main sources of VOCs in the study area were vehicle exhaust, solvent usage, and industrial processes. In order to improve air quality in Beijing and reduce the infection rate of air pollutant related diseases, it is necessary to strengthen the control the emission of VOCs from those three sources.
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