Xiang Zhou
Xiang Zhou
Associate Professor, Tongji University
Verified email at tongji.edu.cn
Cited by
Cited by
Field study of human thermal comfort and thermal adaptability during the summer and winter in Beijing
B Cao, Y Zhu, Q Ouyang, X Zhou, L Huang
Energy and Buildings 43 (5), 1051-1056, 2011
Development of the ASHRAE global thermal comfort database II
VF Ličina, T Cheung, H Zhang, R De Dear, T Parkinson, E Arens, C Chun, ...
Building and Environment 142, 502-512, 2018
Can personal control influence human thermal comfort? A field study in residential buildings in China in winter
M Luo, B Cao, X Zhou, M Li, J Zhang, Q Ouyang, Y Zhu
Energy and Buildings 72, 411-418, 2014
Human metabolic rate and thermal comfort in buildings: The problem and challenge
M Luo, Z Wang, K Ke, B Cao, Y Zhai, X Zhou
Building and Environment 131, 44-52, 2018
Indoor air pollutants, ventilation rate determinants and potential control strategies in Chinese dwellings: a literature review
W Ye, X Zhang, J Gao, G Cao, X Zhou, X Su
Science of the Total Environment 586, 696-729, 2017
Impact of dynamic airflow on human thermal response.
X Zhou, Q Ouyang, G Lin, Y Zhu
Indoor air 16 (5), 348-355, 2006
Revisiting an overlooked parameter in thermal comfort studies, the metabolic rate
M Luo, X Zhou, Y Zhu, J Sundell
Energy and Buildings 118, 152-159, 2016
Determination of dynamic intake fraction of cooking-generated particles in the kitchen
J Gao, C Cao, Q Xiao, B Xu, X Zhou, X Zhang
Building and environment 65, 146-153, 2013
Dynamic thermal environment and thermal comfort
Y Zhu, Q Ouyang, B Cao, X Zhou, J Yu
Indoor air 26 (1), 125-137, 2016
Determination of size-dependent source emission rate of cooking-generated aerosol particles at the oil-heating stage in an experimental kitchen
J Gao, C Cao, L Wang, T Song, X Zhou, J Yang, X Zhang
Aerosol and Air Quality Research 13 (2), 488-496, 2013
Experimental study of the influence of anticipated control on human thermal sensation and thermal comfort
X Zhou, Q Ouyang, Y Zhu, C Feng, X Zhang
Indoor Air 24 (2), 171-177, 2014
An epidemic avian influenza prediction model based on google trends
Y Lu, S Wang, J Wang, G Zhou, Q Zhang, X Zhou, B Niu, Q Chen, ...
Letters in Organic Chemistry 16 (4), 303-310, 2019
Thermal comfort under radiant asymmetries of floor cooling system in 2 h and 8 h exposure durations
X Zhou, Y Liu, M Luo, L Zhang, Q Zhang, X Zhang
Energy and Buildings 188, 98-110, 2019
Exploring the dynamic process of human thermal adaptation: A study in teaching building
M Luo, X Zhou, Y Zhu, D Zhang, B Cao
Energy and Buildings 127, 425-432, 2016
Data-driven thermal comfort model via support vector machine algorithms: Insights from ASHRAE RP-884 database
X Zhou, L Xu, J Zhang, B Niu, M Luo, G Zhou, X Zhang
Energy and Buildings 211, 109795, 2020
Indoor thermal environment and human thermal adaptation in residential buildings in various climate zones during the winter [J]
Journal of Tsinghua University (Science and Technology) 4, 2012
The time-scale of thermal comfort adaptation in heated and unheated buildings
M Luo, Z Ke, W Ji, Z Wang, B Cao, X Zhou, Y Zhu
Building and Environment 151, 175-186, 2019
A study on inherent correlation of thermal performances and condensation free control of the radiant system
Y Yuan, X Zhang, X Zhou
Energy and Buildings 129, 19-31, 2016
Thermal comfort analysis in natural ventilation environment
O Qin, D Wei, Z Xiang, Z Yingxin
HV&AC 35 (8), 16-19, 2005
Reducing building over-cooling by adjusting HVAC supply airflow setpoints and providing personal comfort systems
H Zhang, F Bauman, E Arens, Y Zhai, D Dickerhoff, X Zhou, M Luo
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