2018. 至今,暨南大学环境与气候研究院,副教授
2014.02,香港中文大学建筑学院,博士后
2010.007,香港城市大学能源及环境学院,理学博士
2007.0-7,中国科学院研究生院,理学硕士
城市气候,气候变化与极端天气
2. Chen, B., W. Wang*, Y. You, W. Zhu, Y. Dong, Y. Xu, M. Chang, and X. Wang: Influence of rooftop mitigation strategies on the thermal environment in a subtropical city. Urban Climate, 49, 2023, 101450.
3. Chen, H., B. Chen, W. Chen, M. Chang, X. Wang, W. Wang*: Contribution of future urbanization to summer regional warming in the Pearl River Delta. Urban Climate, 49, 2023, 101476.
4. Bai, Y., Y. Dong, W. Wang*, D. Pan, Y. Xu, Y. Zhong, B. Chen, G. Chen, G. Wu, L. Wu, X. Wang, and J. Hang: Air pollutant dispersion in street canyons based on an outdoor scale model and machine learning. Urban Climate, 47, 2023, 101381.
5. Zheng, X., W. Hu, S. Luo, Z. Zhu, Y. Bai, W. Wang*, and L. Pan*,Effects of vertical greenery systems on the spatiotemporal thermal environment in street canyons with different aspect ratios: A scaled experiment study. Science of the Total Environment, 859, 2023, 160408.
6. Zhong, Y., S. Chen, H. Mo, W. Wang*, P. Yu, X. Wang, Nima Chuduo, and Bian Ba: Contribution of urban expansion to surface warming in high-altitude cities of the Tibetan Plateau. Climatic Change, 2022, 175: 6.
7. Pan, D., Y. Bai, M. Chang, X. Wang, and W. Wang*: The technical and economic potential of urban rooftop photovoltaic systems for power generation in Guangzhou, China. Energy and Buildings, 277, 2022, 112591.
8. Li, Y., W. Wang*, M. Chang, and X. Wang: Impacts of urbanization on extreme precipitation in the Guangdong-Hong Kong-Macau Greater Bay Area. Urban Climate, 38, 2021, 100904.
9. Xu, Y., W. Wang*, B. Chen, M. Chang, and X. Wang: Identification of ventilation corridors using backward trajectory simulations in Beijing. Sustainable Cities and Society, 70, 2021,102889.
11. Wang, W.*, X. Wang, and E. Ng: The coupling effect of mechanical and thermal conditions on pedestrian-level ventilation in high-rise urban scenarios. Building and Environment, 191, 2021, 107586.
12. Wang, W.*, B. Chen, Y. Xu, W. Zhou, and X. Wang: Urban heat islands in Hong Kong: Bonding with atmospheric stability. Atmospheric Science Letters, 2021, doi: 10.1002/asl.1032.
13. Zheng, L, W. Chen, S. Jia, L. Wu, B. Zhong, W. Liao, M. Chang, W. Wang*, X. Wang*: Temporal and spatial patterns of nitrogen wet deposition in different weather types in the Pearl River Delta (PRD), China. Science of the Total Environment, 740, 2020, 139936.
14. Wang, W.*, T. Yang, Y. Li, Y. Xu, M. Chang, and X. Wang: Identification of pedestrian-level ventilation corridors in downtown Beijing using large-eddy simulations. Building and Environment, 182, 2020, 107169.
15. 杨土士, 王伟文*, 常鸣, 王雪梅, 2020: 北京市潜在风道的数值模拟与综合识别. 地理信息科学学报, 22(10), 1996–2009.
16. Wang, W.*, and E. Ng, 2018: Large-eddy simulations of air ventilation in parametric scenarios: Comparative studies of urban form and wind direction. Architectural Science Review, 61, 215–225.
17. Wang, W.*, Y. Xu, E. Ng, and S. Raasch, 2018: Evaluation of satellite-derived building height extraction by CFD simulations: A case study of neighborhood-scale ventilation in Hong Kong. Landscape and Urban Planning, 170, 90–102.
18. Wang, W.*, and E. Ng, 2018: Air ventilation assessment under unstable atmospheric stratification — A comparative study for Hong Kong. Building and Environment, 130, 1–13.
19. Wang, W.*, Y. Xu, and E. Ng, 2018: Large-eddy simulations of pedestrian-level ventilation for assessing a satellite-based approach to urban geometry generation. Graphical Models, 95, 29–41.
20. Wang, W.*, E. Ng, C. Yuan, and S. Raasch, 2017: Large-eddy simulations of ventilation for thermal comfort — A parametric study of generic urban configurations with perpendicular approaching winds. Urban Climate, 20, 202–227.
21. Wang, W., and W. Zhou*, 2017: Statistical modeling and trend detection of extreme sea level records in the Pearl River Estuary. Advances in Atmospheric Sciences, 34, 383–396.
22. Wang, W., W. Zhou*, E. Y. Y. Ng, and Y. Xu, 2016: Urban heat island in Hong Kong: Statistical modeling and trend detection. Natural Hazards, 83, 885–907.
23. Wang, W., W. Zhou*, X. Li, X. Wang, and D. Wang, 2016: Synoptic-scale characteristics and atmospheric controls of summer heat waves in China. Climate Dynamics, 46, 2923–2941.
24. Wang, W., W. Zhou*, S. K. Fong, K. C. Leong, I. M. Tang, S. W. Chang, and W. K. Leong, 2015: Extreme rainfall and summer heat waves in Macau based on statistical theory of extreme values. Climate Research, 66, 91–101.
25. Wang, W., W. Zhou*, Y. Li, X. Wang, and D. Wang, 2015: Statistical modeling and CMIP5 simulations of hot spell changes in China. Climate Dynamics, 44, 2859–2872.
26. Wang, W., W. Zhou*, and D. Chen, 2014: Summer high temperature extremes in Southeast China: bonding with the El Niño-Southern Oscillation and East Asian summer monsoon coupled system. Journal of Climate, 27, 4122–4138.
27. Wang, W., W. Zhou*, X. Wang, S. K. Fong, and K. C. Leong, 2013: Summer high temperature extremes in Southeast China associated with the East Asian jet stream and circumglobal teleconnection. Journal of Geophysical Research Atmospheres, 118, doi:10.1002/jgrd.50633.
28. Wang, W., D. Wang*, W. Zhou, Q. Liu, Y. Yu, and C. Li, 2011: Impact of the South China Sea throughflow on the Pacific low-latitude western boundary current: A numerical study for seasonal and interannual time scales. Advances in Atmospheric Sciences, 28(6), 1367–1376.
29. 王伟文,俞永强, 李超, 周文, 刘钦燕, 王东晓*, LICOM模拟的南海贯穿流及其对南海上层热含量的影响. 海洋学报, 2010, 32(2): 1-11.
*通讯作者
大气环境与气候变化数值模拟团队
