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 | 420 | 2018 |
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 | 294 | 2011 |
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 | 208 | 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 | 168 | 2017 |
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 | 164 | 2014 |
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 | 134 | 2016 |
Impact of dynamic airflow on human thermal response. X Zhou, Q Ouyang, G Lin, Y Zhu Indoor air 16 (5), 2006 | 107 | 2006 |
Dynamic thermal environment and thermal comfort Y Zhu, Q Ouyang, B Cao, X Zhou, J Yu Indoor air 26 (1), 125-137, 2016 | 94 | 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 | 92 | 2020 |
DeST 3.0: A new-generation building performance simulation platform D Yan, X Zhou, J An, X Kang, F Bu, Y Chen, Y Pan, Y Gao, Q Zhang, ... Building Simulation 15 (11), 1849-1868, 2022 | 84 | 2022 |
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 | 84 | 2013 |
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 | 79 | 2019 |
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 | 76 | 2014 |
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 | 69 | 2013 |
A global building occupant behavior database B Dong, Y Liu, W Mu, Z Jiang, P Pandey, T Hong, B Olesen, T Lawrence, ... Scientific data 9 (1), 369, 2022 | 67 | 2022 |
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 | 60 | 2019 |
Evaluation of the accuracy of PMV and its several revised models using the Chinese thermal comfort Database H Du, Z Lian, D Lai, L Duanmu, Y Zhai, B Cao, Y Zhang, X Zhou, Z Wang, ... Energy and Buildings 271, 112334, 2022 | 52 | 2022 |
Carbon dioxide generation rates of different age and gender under various activity levels L Yang, X Wang, M Li, X Zhou, S Liu, H Zhang, E Arens, Y Zhai Building and Environment 186, 107317, 2020 | 52 | 2020 |
Energy and comfort performance of occupant-centric air conditioning strategy in office buildings with personal comfort devices J Zhang, X Zhou, S Lei, M Luo Building Simulation, 1-13, 2022 | 43 | 2022 |
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 | 31 | 2016 |