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2021-06-18 点击数:

魏巍 博士生导师





2005-2009 清华大学 环境科学与工程专业  博士研究生

2002-2005 北京科技大学 安全工程专业 硕士研究生

1998-2002 北京科技大学 环境工程专业 本科生


2009-至今 北京工业大学 环境科学与工程系










1) Wei W.*, Wang Y., Bai H.X, Wang X.Q., Cheng S.Y. Wang L.T, Insights into atmospheric oxidation capacity and its impact on PM2.5 in megacity Beijing via volatile organic compounds measurements. Atmospheric Research. 2021, 258(92): 105632.

2) Wei W.*, Zang J.X., Wang X.Q., Cheng S.Y., Peroxyacetyl nitrate (PAN) in the border of Beijing, Tianjin and Hebei of China: concentration, source apportionment and photochemical pollution assessment. Atmospheric Research. 2020, 246(92): 105106.

3) Lv Z., Wei W.*, Cheng S.Y., Han X.Y., Wang X.Q., Meteorological characteristics within boundary layer and its influence on PM2.5 pollution in six cities of North China based on WRF-Chem. Atmospheric Environment. 2020, V228, 117417. (III)

4) Wang X.Q., Wei W.*, Composition analysis and formation pathway comparison of PM1 between two pollution episodes during February 2017 in Beijing, China. Atmospheric Environment. 2020, V223, 117223. (II)

5) Lv Z., Wei W.*, Cheng S.Y., Han X.Y., Wang X.Q., Mixing layer height estimated from AMDAR and its relationship with PMs and meteorological parameters in two cities in North China during 2014-2017. Atmospheric Pollution Research. 2020, V11(3), 443-453. (III)

6) Wang X.Q., Wei W.*, Cheng S.Y., Zhang H.Y., Yao S., Source estimation of SO42− and NO3− based on monitoring-modeling approach during winter and summer seasons in Beijing and Tangshan, China. Atmospheric Environment. 2019, V214, 116849. (II)

7) Wei W.*, Ren Y.T., Yang G., Cheng S.Y., Han L.H., Characteristics and source apportionment of atmospheric volatile organic compounds in Beijing, China. Environmental Monitoring and Assessment. 2019. V191(12), 762-772. (I)

8) Wei W.*, Li Y., Ren Y.T. Cheng S.Y., Han L.H., Sensitivity of summer ozone to precursor emission change over Beijing during 2010–2015: A WRF-Chem modeling study. Atmospheric Environment. 2019, V218, 116982. (II)

9) Wang X.Q., Wei W.*, Cheng S.Y., Zhang C., Duan W.J., A monitoring-modeling approach to SO42- and NO3- secondary conversion ratio estimation during haze periods in Beijing, China. Journal of Environmental Sciences. 2019, V78(04), 293-302.

10) Wei W.*, Li Y., Wang Y.T., Cheng S.Y., Wang L.T., Characteristics of VOCs during haze and non-haze days in Beijing, China: concentration, chemical degradation and regional transport impact. Atmospheric Environment. 2018. V194, 134-145.

11) Wei W.*, Wang Y.T., Yang G., Cheng S.Y., Speciated VOCs emission estimate for a typical petrochemical manufacturing plant in China using inverse-dispersion calculation method. Environmental Monitoring and Assessment. 2018, V190, 451.

12) Wei W.*, Lv Z.F., Li Y., Wang L.T., Cheng S.Y., Liu H., A WRF-Chem model study of the impact of VOCs emission of a huge petrochemical industrial zone on the summertime ozone in Beijing, China. Atmospheric Environment. 2018, V175, 44-53.

13) Wei W.*, Shao X., Nie L., A comprehensive classification method for VOC emission sources to tackle air pollution based on VOC species reactivity and emission amounts, Journal of Environmental Sciences. 2018, V67, 78-88.  

14) Wang X.Q., Wei W.*, Cheng S.Y., Li J.B., Zhang H.Y., Lv Z., Characteristics and classification of PM2.5 pollution episodes in Beijing from 2013 to 2015. Science of the Total Environment. 2018, V612, 170–179.

15) Wei W.*, Lv Z.F., Yang G., Cheng S.Y., Li Y., Wang L.T., VOCs emission rate estimate for complicated industrial area source using an inverse-dispersion calculation method: A case study on a petroleum refinery in Northern China. Environmental Pollution. 2016, V218, 681-688.

16) Wei W.*, Lv Z.F., Cheng S.Y., Wang L.L., Ji D.S., Zhou Y., Han L.H., Wang L.T., Characterizing ozone pollution in a petrochemical industrial area in Beijing, China: a case study using a chemical reaction mode. Environmental Monitoring and Assessment. 2015, V187, 377-386.

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