Xueyuan WANG

Associate Professor


xueyuan@nju.edu.cn

Education
 Sep. 2005-Jun. 2010Nanjing University Ph D of atmospheric sciences.
 Sep. 2007-Sep. 2009University of Illinois at Urbana-Champaign, Illinois State Water Survey.
 Sep. 2001-Jun.2005Nanjing University Undergraduate of atmospheric sciences.
Work Experience
 Dec. 2020 - currentNanjing University
Nanjing, China
Associate Professor, School of Atmospheric Sciences
 Jul. 2010 - Dec. 2020Nanjing University
Nanjing, China
Lecturer, School of Atmospheric Sciences
Research Interests

   Air quality modeling
   Urban climate
   Urban land surface modelingt
   Urban hydrology

Teaching Interests

   Introduction to Atmospheric Science
   Fortran Language Programming

Selected Publications
 1.Wang, X. *, Liu, G., Zhang, N., Liu, H., Tang, X., Lyu, M., Meng, H., 2023. Effects of cooling roofs on mitigating the urban heat island and human thermal stress in the Pearl River Delta, China. Building and Environment, 245, 110880.
 2.Liu, G., Wang, X.*(唯一通讯作者), Wu, Q., Fang, D., Wu, Z., Liu, H., Lyu, M., 2023. Effect of urbanization on gust wind speed in summer over an urban area in eastern China. Environ. Res.Lett., 18, 074025.
 3.Wang, X. *, Liu G., Liu, H., Tang, X., Lyu, M., Meng, H., 2023. Effect of cooling roofs on gust wind speed over an urban agglomeration in southern China. Environ. Res. Commun., 5, 101005.
 4.Wang, X. *, Liu, H.*, Miao, S., Wu, Q., Zhang, N., & Qiao, F., 2020. Effectiveness of urban hydrological processes in mitigating urban heat island and human thermal stress during a heat wave event in Nanjing, China. J. Geophys. Res. : Atmospheres, 125, e2020JD033275.
 5.Wang, X., Miao, S., Liu, H., Sun, J., Zhang, N., & Zou, J., 2019. Assessing the Impact of Urban Hydrological Processes on the Summertime Urban Climate in Nanjing Using the WRF Model. J. Geophys.Res.: Atmospheres, 124, 12,683–12,707. (被著名科学新闻杂志 J. Phys. Res. 报导)
 6.Wang, X., J., Tang, X., Niu, S., Wang, 2016. An assessment of precipitation and surface air temperature over China by regional climate models. Frontiers of Earth Science, 10(4):644-661.
 7.Wang, X., X.-Z., Liang, W., Jiang et al., 2010. WRF-Chem simulation of East Asian air quality: Sensitivity to temporal and vertical emissions distributions. Atmospheric Environment, 44, 660-669.
 8.Zhang, N., Wang, X., Peng, Z., 2014. Large-Eddy Simulation of Mesoscale Circulations Forced by Inhomogeneous Urban Heat Island. Boundary-Layer Meteorol, 151:179–194.
 9.Ma, X., Liu, H.*, Wang, X., and Peng, Z., 2018, Studies on the Climate Effects of Black Carbon Aerosols in China and Their Sensitivity to Particle Size and Optical Parameters, Advances inMeteorology, 9341026, https://doi.org/10.1155/2018/9341026
 10.Tang,J., S. Wang, X., Niu, P., Hui, P., Zong, Wang, X., 2017. Impact of spectral nudging on regional climate simulation over CORDEX East Asia using WRF. Clim. Dyn., 48: 2339-2357.
 11.Sun, K., Liu, H., Wang, X., Peng, Z., Xiong, Z., 2017. The aerosol radiative effect on a severe haze episode in the Yangtze River Delta. Journal of Meteorological Research. 31: 865-873.
 12.Zhou, W., J., Tang, X., Wang, S., Wang, X., Niu, Y., Wang, 2016. Evaluation of regional climate simulations over the CORDEX-EA-II domain using the COSMO-CLM model. Asia-Pacific Journal ofAtmospheric Sciences, 52(2), 107-127.
 13.Song, Y., H., Liu, X., Wang, N., Zhang, J., Sun, 2016. Numerical Simulation of the Impact of Urban Non-uniformity on Precipitation. Advances in Atmospheric Sciences, 33, 783–793.
 14.Ma X., H., Liu, X., Wang, R., Zhang, 2016. The radiative effects of anthropogenic aerosols over China and their sensitivity to source emission. Journal of Tropical Meteorology, 22(1): 94-108.
 15.Zhang, N., X., Wang, Y., Chen, W., Dai, X., Wang, 2016. Numerical simulations on influence of urban land cover expansion and anthropogenic heat release on urban meteorological environment in Pearl River Delta. Theor. Appl. Climatol., DOI 10.1007/s00704-015-1601-0
 16.Sun K, H., Liu H, A., Ding, X., Wang, 2016. WRF-Chem simulation of a severe haze episode in the Yangtze River Delta, China. Aerosol and Air Quality Research, 16: 1268-1283.
 17.Tang, J., X. Niu, S. Wang, H. Gao, X. Wang, and J. Wu, 2016. Statistical downscaling and dynamical downscaling of regional climate in China: Present climate evaluations and future climate projections. J. Geophys. Res. Atmos., 121,2110–2129, doi:10.1002/2015JD023977.
 18.Liu H, W., Ma, J., Qian, J., Cai, X., Ye, J., Li, X., Wang, 2015. Effect of urbanization on the urban meteorology and air pollution in Hangzhou. J. Meteor. Res., 29(6), 950-965.
 19.Yang, J., H., Liu, J., Sun, Y., Zhu, X., Wang, Z., Xiong, W., Jiang, 2015. Further Development of the Regional Boundary Layer Model to Study the Impacts of Greenery on the Urban Thermal Environment. Journal of Applied Meteorology and Climatology, 54, 137-152.
 20.Liu S., W., Gao, M., Xu, X., Wang, X.-Z., Liang, 2009. China summer precipitation simulations using an optimal ensemble of cumulus schemes. Frontiers of Earth Science, 3(2):248-257.
 21.Han, Z., Liu, H.*, Yu, B., Wang, X., 2023. The effects of coastal local circulations and their interactions on ozone pollution in the Hangzhou metropolitan area, Urban Climate, Volume 48, 101417
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