Wang Gang（Associate Professor）

Name：

Wang Gang

Academic Title：

Associate Professor

Advisor Type：

Supervisor

Department：

Department of environment   and safety engineering

Research Interests：

Causes and source   apportionment of atmospheric compound pollution

E-Mail：

wangg@upc.edu.cn

◎Educational Background

2007-2011, College of Chemistry and   Chemical Engineering, Dezhou University, Bachelor of Engineering.

2011-2017, College of   Environmental and Energy Engineering, Beijing University of Technology,   Doctor of Engineering.

◎Work Experience

2017-2019, School of   Environment, Tsinghua University, Postdoctoral

2019-present, College of   Chemistry and Chemical Engineering, China University of Petroleum (East   China), Associate Professor

◎Research Direction

Air pollution is a   regional environmental problem, which is coupled by multiple environmental   problems caused by the emission of multi-pollutants   such as SO₂, NOx, NH₃ and VOCs.Our group has been long carrying out work on atmospheric compound pollution, and based on the technical means of   Comprehensive observation   system - Multi-scale high-resolution emission inventory of pollution sources   - Coupled numerical simulation system of meteorology and air quality. The research groupaims to explore the formation mechanism of atmospheric   compound pollution, formulate a refined   pollution control scheme and establish a long-term joint prevention   and control mechanism. The main research direction   include:

[1] Causes and source apportionment of atmospheric compound pollution

[2] Emission   characteristics and environmental impact assessment of pollution sources

[3] Multi-scale regional transmission   rule on air pollution

◎Research Project

We has undertaken more   than ten projects such as the research project of the Causes and Treatment of   Heavy Air Pollution by the Ministry of Ecology and Environment of the People's   Republic of China, the National Natural Science   Fund and the University Introduction Talent Research Fund, and participated   in more than ten projects such as the National Key R&D Program of China   and key projects of the National Natural Science Fund as the main personnel. The   representative national/provincial and ministerial projects are as follows:

[1] The   research project of the Causes and Treatment of Heavy Air Pollution by the   Ministry of Ecology and Environment of the People's Republic of China, One City and One Policy   for coordinated prevention and control of   fine particulate matter and ozone pollution, 2021.05~2023.04, principal   investigator

[2]Youth project of   National Natural Science Fund, Characterization of   fine particulate matter and gaseous pollutants emitted from typical   combustion sources, 2019.01~2021.12, project leader

[3] Talent introduction   project of China University of Petroleum (East China), High-resolution   emission inventory of pollution sources and source apportionment of   particulate matter in Shandong province, 2019.11~2022.10, project leader

[4]China’s   Post-doctoral Science Fund General Project, Characterization of particulate   matter emitted from typical combustion sources in the desulfurization   process, 2018.05~2019.09, project   leader

[5]National Key R&D   Program of China, Multi-scale and high   temporal-spatial resolution emission and variation trends of pollutants,   2018.07~2021.06, technicians

[6]Key   project of National Natural Science Fund, Study on interaction between atmospheric   boundary layer structure changes and heavy pollution processes based on AMDAR   and comprehensive observational data, 2016.07~2018.12, participated

[7]National   Natural Science FundGeneral Project , Improve the detection   efficiency of 1-3 nanometer atmospheric particulate matter by improving   condensation growth technology, 2019.01~2022.12, participated

[8] National Natural   Science Fund General Project, Study on the   characteristics of air pollution impact in regard to the port ship emissions   under the background of sea-land breeze   circulation, 2016.01~2019.12, participated

[9] Ministry of   Environmental Protection of the People's Republic of China, Study on the   emission characteristics of air pollutant in the capital airport area and its   impact on surrounding air quality, 2014.01~2016.12, participated

[10] Ministry of   Environmental Protection of the People's Republic of China, Study on the continuous improvement of fine particulate matter   air quality and management technology in key cities of Hebei province,   2014.01~2016.12, participated

◎Representative Papers and Patents

1. Paper

【2021】

[1]Wang, G.,*Zhu, Z.Y., Zhao, N., Wei, P., Li,   G.H., Zhang, H.Y. Variations in characteristics and transport pathways of   PM2.5 during heavy pollution episodes in 2013–2019 in Jinan, a central city   in the north China Plain. Environmental Pollution, 2021, 284.

[2]Zhao, N., Wang, G.,*Li, G.H., Lang, J.L.   Trends in air pollutant concentrations and the impact of meteorology in   Shandong province, coastal China, during 2013-2019. Aerosol & Air Quality   Research, 2021, 21(6): 200545.

[3]Zhao, X.Y., Wang, G., Wang, S., Zhao, N.,*   Zhang, M., Yue, W.Q. Impacts of COVID-19 on air quality in mid-eastern China:   An insight into meteorology and emissions. Atmospheric Environment, 2021,   266.

[4]Qu, S., Fan, S.B., Wang, G., He, W.Q., Xu,   K.L., Nie, L., Zhao, Y.C., Zhu, Q.C., Li, T.T., Li, G.H.* Air pollutant   emissions from the asphalt industry in Beijing, China. Journal of Environmental   Sciences, 2021, 109: 57-65.

[5]Lv, Z., Liu, X.Y., Wang, G., Shao, X., Nie,   L., Li, G.H.* Sector-based volatile organic compounds emission   characteristics from the electronics manufacturing industry in China.   Atmospheric Pollution Research, 2021, 12(7): 101097.

【2020】

[1]Wang, G., Deng, J.G., Zhang, Y., Li, Y.J.,   Ma, Z.Z., Hao, J.M., Jiang J.K.* Evaluating airborne condensable particulate   matter measurement methods in typical stationary sources in China.   Environmental Science & Technology, 2020, 54(3): 1363-1371.

[2]Wang, G., Deng, J.G., Zhang, Y., Zhang, Q.,   Duan, L., Hao, J.M., Jiang J.K.* Air pollutant emissions from coal-fired   power plants in China over the past two decades. Science of the Total   Environment, 2020, 741: 140326.

[3]Zhao, Na., Wang, G.,* Li, G.H., Lang, J.L.,*   Zhang, H.Y. Air pollution episodes during the COVID-19 outbreak in the   Beijing-Tianjin-Hebei region of China: An insight into the transport pathways   and source distribution. Environmental Pollution, 2020, 267: 115617.

[4]Ma, Z.Z., Duan, L., Jiang, J.K., Deng, J.G.,   Xu, F.Y.,* Jiang, L.H.,** Li, J.H., Wang, G., Huang, X., Ye, W.Q., Wen, Y.C.,   Zhang, G., Duan, N. Characteristics and threats of particulate matter from   zinc electrolysis manufacturing facilities. Journal of Cleaner Production,   2020, 259: 120874.

[5] Deng, J.G., Wang, G.,   Zhang, Y., Li, Y.J., Duan L., Jiang J.K.*Characteristics of   Condensable Particulate Matter in Ultra-low Emission Coal-Fired Power Plants.   Environmental Science, 2020, 41(4): 1589-1593.

[6] Li, Y.J., Deng, J.G.,   Wang, G., Zhang, Y., Jiang J.K.*Design of dilution   sampler for measuring condensable particulate matter from stationary sources.Acta Scientiae   Circumstantiae, 2020, 40(5): 1656-1660.

[7] Zhang, Y., Deng,   J.G., Wang, G., Li, Y.J., Xu, P., Jiang J.K.*Characterization of   Condensable particulate matter emitted from a typical coking plant in iron   and steel plant.Environmental Engineering, 2020, 38(9):   154-158.

【2019】

[1]Wang, G.,#Ma, Z.Z.,# Deng, J.G., Li, Z.,   Duan, L., Zhang, Q., Hao, J.M., Jiang J.K.* Characteristics of particulate   matter from four coal-fired power plants with low-low temperature   electrostatic precipitator in China. Science of the Total Environment, 2019,   662: 455-461.

[2]Liu, C., Hua, C., Zhang, H.D., Zhang, B.H.,   Wang, G., Zhu, W.H., Xu, R. A severe fog-haze episode in   Beijing-Tianjin-Hebei region: Characteristics, sources and impacts of   boundary layer structure. Atmospheric Pollution Research, 2019, 10:   1190-1202.

[3] Jiang J.K.,* Deng,   J.G., Wang, G., Zhang, Y., Li, Y.J., Duan, L., Hao, J.M.Measuring the condensable   particle matter from a stationary source.Environmental Science,   2019, 40(12): 5234-5239.

【2018】

[1]Wang, G., Deng, J.G., Ma, Z.Z., Hao, J.M.,   Jiang J.K.*Characteristics of filterable and condensable particulate matter   emitted from two waste incineration power plants in China. Science of the   Total Environment, 2018, 639: 695-704.

[2]Yang, X.W., Cheng, S.Y.,*Wang, G., Xu, R.,   Wang, X.Q., Zhang, H.Y., Chen. G.L. Characterization of volatile organic   compounds and the impacts on the regional ozone at an international airport.   Environmental Pollution, 2018, 238: 491-499.

【2017】

[1]Wang, G., Cheng, S.Y.,* Wei, W., Yang, X.W.,   Wang, X.Q., Jia, J., Lang, J.L., Lv, Z. Characteristics and   emission-reduction measures evaluation of PM2.5 during the two major events:   APEC and Parade. Science of the Total Environment, 2017, 595: 81-92.

[2]Wang, G., Cheng, S.Y.,* Lang, J.L.,* Yang,   X.W., Wang, X.Q., Chen, G.L., Liu, X.Y., Zhang, H.Y. Characteristics of PM2.5   and assessing effects of emission-reduction measures in the heavy polluted   city of Shijiazhuang, before, during, and after the ceremonial parade 2015.   Aerosol & Air Quality Research, 2017, 17(2): 499-512.

[3]Lang, J.L., Cheng, S.Y.,* Wen, W., Liu, C.,   Wang, G. Development and application of a new PM2.5 source apportionment   approach. Aerosol & Air Quality Research, 2017, 17(1): 340-350.

[4]Jia, J., Cheng, S.Y.,* Liu, L., Lang, J.L.,   Wang, G., Chen, G.L., Liu, X.Y. An integrated WRF-CAMx modeling approach for   impact analysis of implementing the emergency PM2.5 control measures during   red alerts in Beijing in December 2015. Aerosol & Air Quality Research,   2017, 17(10): 2491-2508.

[5]Yang, X.W., Cheng, S.Y.,* Li, J.B.,** Lang,   J.L., Wang, G. Characterization of chemical composition in PM2.5 in Beijing   before, during, and after a large-scale international event. Aerosol &   Air Quality Research, 2017, 17(4): 896-907.

[6] Xu, R., Lang, J.L.,   Cheng, S.Y.,* Wang, G., Yang, X.W. Exploration of the atmospheric pollutant   emission inventory of mobile sources from Beijing Capital International   Airport.Journal   of Safety and Environment, 2017, 17(5): 1957-1962.

[7] Liu, X.Y., Lang,   J.L., Cheng, S.Y.,* Wang, X.Q., Wang, G. Pollution characteristics and   regional migration impact of PM2.5 in Beijing in winter season. Journal of   Safety and Environment, 2017, 17(3): 1200-1205.

[8] Tian, L., Wei, W.,   Cheng, S.Y.,* Li, G.H., Wang, G. Source profiles and ozone formation   potential of volatile organic compounds from the use of solvents in typical   industry.Journal of Safety and Environment, 2017,   17(1): 314-320.

【2016】

[1]Wang, G., Cheng, S.Y.,* Lang, J.L., Li, S.,   Tian, L. On-board measurements of gaseous pollutant emission characteristics   under real driving conditions from light-duty diesel vehicles in Chinese   cities. Journal of Environmental Sciences, 2016, 46: 28-37.

[2]Wang, G., Cheng, S.Y.,* Wei, W., Zhou, Y.,   Yao, S., Zhang, H.Y. Characteristics and source apportionment of VOCs in the   suburban area of Beijing, China. Atmospheric Pollution Research, 2016, 7(4):   711-724.

[3]Cheng, S.Y.,*Wang, G., Lang, J.L.,* Wen, W.,   Wang, X.Q., Yao, S. Characterization of volatile organic compounds from   different cooking emissions. Atmospheric Environment, 2016, 145: 299-307.

[4]Wen, W., Cheng, S.Y.,* Chen, X.F., Wang, G.,   Li, S., Wang, X.Q., Liu, X.Y. Impact of emission control on PM2.5 and the   chemical composition change in Beijing-Tianjin-Hebei during the APEC summit   2014. Environment Science and Pollution Research, 2016, 23, 4509-4521.

[5]Wen, W., Cheng, S.Y.,* Liu, L.,**Wang, G.,   Wang, X.Q. Source apportionment of PM2.5 in Tangshan, China-hybrid approaches   for primary and secondary species apportionment. Frontiers of Environmental   Science & Engineering, 2016, 10(5).

[6]Chu, B.W.,* Liu, Y.C., Ma, Q.X., He,   H.,**Wang, G., Cheng, S.Y., Wang, X.M. Distinct potential aerosol masses   under different scenarios of transport at a suburban site of Beijing. Journal   of Environmental Sciences, 2016, 39: 52-61.

[7]Lang, J.L.,* Zhou, Y., Cheng, S.Y., Zhang,   Y.Y., Dong, M., Li, S.Y., Wang, G., Zhang, Y.L. Unregulated pollutant   emissions from on-road vehicles in China, 1999-2014. Science of the Total   Environment, 2016, 573: 974-984.

[8]Wen, W., Cheng, S.Y.,* Liu, L.,** Chen, X.F.,   Wang, X.Q., Wang, G., Li, S. PM2.5 chemical composition analysis in different   functional subdivisions in Tangshan, China. Aerosol & Air Quality   Research, 2015, 16(7): 1651-1664.

[9] Wang, X.Q., Zhou, Y.,   Cheng, S.Y.,* Wang, G. Characterization and regional transmission impact of   water-soluble ions in PM2.5 during winter in typical cities.China Environmental   Science, 2016, 36(8): 2289-2296.

[10] Yang, X.W., Zhou,   Y., Cheng, S.Y.,* Wang, G., Wang, X.Q. Characteristics and formation   mechanism of a heavy winter air pollution event in Beijing. China   Environmental Science, 2016, 36(3): 679-686.

[11] Yao, S., Wei, W.,   Cheng, S.Y.,* Wang, G., Zhang, H.Y., Chen, G.L. Emission characteristics and   chemical reactivity of volatile organic compounds from light-duty gasoline   vehicles. China Environmental Science, 2016, 36(10): 2923-2929.

[12] Yao, S., Han, L.H.,   Cheng, S.Y.,* Wang, G., Wang, X.Q. Characteristics of main atmospheric   pollutants in heating season of Beijing. Journal of Beijing University of   Technology, 2016, 42(11): 1741-1749.

[13] Li, S., Lang, J.L.,   Cheng, S.Y.,* Li, G.H., Wang, G. Analysis of the profiles’ characteristic   features of the particulate matters in regard to the stationary coal   combustion sources.Journal of Safety and Environment, 2016,   16(5): 312-319.

【2015】

[1]Wang, G., Cheng, S.Y.,* Wei, W.,* Wen, W.,   Wang, X.Q., Yao, S. Chemical characteristics of fine particles emitted from   different Chinese cooking styles. Aerosol & Air Quality Research, 2015,   15(6): 2357-2366.

[2]Wang, G., Cheng, S.Y.,* Li, J.B.,* Lang,   J.L., Wen, W., Yang, X.W., Tian, L. Source apportionment and seasonal   variation of PM2.5 carbonaceous aerosol in the Beijing-Tianjin-Hebei Region   of China. Environmental Monitoring and Assessment, 2015, 187(3): 1-13.

[3]Zhou, Y., Cheng, S.Y.,* Chen, D.S., Lang,   J.L., Wang, G., Xu, T.T., Wang, X.Q., Yao, S. Temporal and spatial   characteristics of ambient air quality in Beijing, China. Aerosol & Air   Quality Research, 2015, 15(5), 1868-1880.

[4] Wang, G., Wei, W.,   Mi, T.Q., W, P.T., Luan, Y.N., Cheng, S.Y.,* Li, G.H., Li, S.Characteristics of VOCs   emitted from typical industrial fugitive,China Environmental   Science, 2015, 35(7): 1957-1964.

[5] Wang, G., Lang, J.L.,   Cheng, S.Y.,* Yao, S., Wang, X.Q.Characteristics of PM2.5   and hydrocarbon emitted from heavy-duty diesel vehicle.China Environmental   Science, 2015, 35(12): 3581-3587.

[6] Wang, G., Han, L.H.,   Cheng, S.Y.,* Lang, J.L., Wen, W., Liu, C., Yang, X.W.Characteristics and   source apportionment of carbonaceous aerosols during summer period in typical   cities. Journal of Beijing University of Technology, 2015, 1(3): 452-460.

【2014】

[1]Wei, W., Cheng, S.Y.,* Li, G.H., Wang, G.,   Wang, H.Y. Characteristics of volatile organic compounds (VOCs) emitted from   a petroleum refinery in Beijing, China. Atmospheric Environment, 2014, 89:   358-366.

[2]Wei, W., Cheng, S.Y.,* Li, G.H., Wang, G.,   Wang, H.Y. Characteristics of ozone and ozone precursors (VOCs and NOx)   around a petroleum refinery in Beijing, China. Journal of Environmental   Sciences, 2014, 26: 332-342.

[3]Lang, J.L., Cheng, S.Y.,* Zhou, Y., Zhang,   Y.L., Wang, G. Air pollutant emissions from on-road vehicles in China,   1999-2011. Science of the Total Environment, 2014, 496: 1-10.

[4]Li, G.H., Cheng, S.Y.,* Li, J.B.,** Wei, W.,   Wen, W., Wang, G. Characterization of ambient ozone and its precursors around   a coking plant. Environmental Monitoring and Assessment, 2014, 186(5):   3165-3179.

[5] Wen, W., Han, L.H.,   Dai, J., Wang, G., Cheng, S.Y.,*Characteristics of PM2. 5   Pollution and Source Apportionment in Tangshan During Summer.Journal of Beijing   University of Technology, 2014, 40(5): 751-758.

[6] Li, G.H., Wei, W.,   Cheng, S.Y.,* Wen, W., Wang, G.Emission characterization   and ozone formation potential of VOCs during the coking process. Journal of   Beijing University of Technology, 2014. 40(1): 91-99.

[7] Li, G.H., Wei, W.,   Cheng, S.Y.,* Wang, H.Y., Wang, G. Meteorological effects on the ozone and   its precursors variations around the oil-refinery in summer and autumn.Journal of Safety and   Environment, 2014, 14(2): 249-253.

[8] Li, G.H., Wei, W.,   Wei, F., Cheng, S.Y.,* Wen, W., Wang, G.Diurnal variations of   ozone and its precursors and ozone formation potential of VOCs at the   boundary of a coking plant during summer and autumn.Chinese Journal of   Environmental Engineering, 2014, 8(3): 1130-1138.

◎Awards and Honors

The Fourth Batch of   High-level Talents of West Coast New Area (2021)

◎Courses Offered

Undergraduate：《Atmospheric   pollution control engineering》《Environmental   monitoring》《Environmental Systems Engineering》

◎Part-time Academic Job

[1]Director   of Shandong Environmental Science Society（2020.10~2023.09）

[2]Visiting   Professor, College of Chemistry and Chemical Engineering, Dezhou University

[3]Guest   editor, Atmosphere（2021）

[4] Reviewer of top journals   in environmental fields such as Environmental Pollution，Science   of the Total Environment，Journal of Environmental   Management，Atmospheric Environment