Campus Wind Environment Evaluation (Case Study: North China University of Technology)
Subject Areas : Built EnvironmentBiao WANG 1 , Shuai SUN 2 , Ying LI 3 , Yuxin HOU 4 , Yaning XIE 5 , Yuyao REN 6 , Qiutong JIN 7
1 - Ph.D., Ins tructor, Dept. of Architecture, North China University of Technology, Rd.5 Jinyuanzhuang, Beijing
100144, China.
2 - Ph.D., Assis tant Professor, Dept. of Landscape, North China University of Technology, Rd.5 Jinyuanzhuang,
Beijing 100144, China.
3 - B.Sc. Dept. of Architecture, North China University of Technology, Rd.5 Jinyuanzhuang, Beijing 100144,
China.
4 - B.Sc. Dept. of Architecture, North China University of Technology, Rd.5 Jinyuanzhuang, Beijing 100144,
China.
5 - B.Sc. Dept. of Architecture, North China University of Technology, Rd.5 Jinyuanzhuang, Beijing 100144,
China.
6 - B.Sc. Dept. of Architecture, North China University of Technology, Rd.5 Jinyuanzhuang, Beijing 100144,
China.
7 - B.Sc. Dept. of Architecture, North China University of Technology, Rd.5 Jinyuanzhuang, Beijing 100144,
China.
Keywords:
Abstract :
Du, Y., Mak, C. M., & Ai, Z. (2018). Modeling of pedestrian
level wind environment on a high-quality mesh: A case study
for the HKPolyU campus. Environmental modeling &
software, 103, 105-119.
GB/T 50378-2019. (2019). Green Building Evaluation
Standard (in Chinese).
Jiaping, L. (2009). Building Physics [M]. China Building
Indus try Press.
Jiazhi, Y. (2015). Research on the comfort of building wind
environment. Earthquake resistance and reinforcement of
engineering, 37(03).
Jinxin, X. (2015). Simulation study of wind environment
in the university campus. Master thesis of Shandong Jianzhu
University. http://www.wanfangdata.com.cn/details/detail.
do?_type=degree&id=Y2782697.
Murakami, S., Uehara, K., & Deguchi, K. (1980). Wind
effects on pedestrians: New criteria based on outdoor
observation of over 2000 persons. In Wind Engineering (pp.
277-288). Pergamon.
NEN. (2006). Wind Comfort and Wind Danger in the Built
Environment. NEN 8100 (In Dutch) Dutch Standard.
Soligo, M. J., Irwin, P. A., Williams, C. J., & Schuyler, G.
D. (1998). A comprehensive assessment of pedestrian comfort
including thermal effects. Journal of Wind Engineering and
Industrial Aerodynamics, 77, 753-766.
Wang, B., Cot, L. D., Adolphe, L., Geoffroy, S., &
Morchain, J. (2015). Estimation of wind energy over roof of
two perpendicular buildings. Energy and Buildings, 88, 57-67.
Wei, H. (2017). Study on Wind Environment Simulation of
Dalian University Campus. Master thesis of Xi'an University
of Architecture and Technology. http://cdmd.cnki.com.cn/
Article/CDMD-10703-1017735659.htm.
Yongjie. X. (2002). Simulation and analysis of outdoor
wind environment in buildings. Master thesis of Tianjin
University. http://en.cnki.com.cn/Article_en/CJFDTotal-
LZGD201804009.htm.