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Yongchao Zhai
Yongchao Zhai
Xi'an University of Architecture and Technology
Verified email at xauat.edu.cn
Title
Cited by
Cited by
Year
A review of the corrective power of personal comfort systems in non-neutral ambient environments
H Zhang, E Arens, Y Zhai
Building and Environment 91, 15-41, 2015
2492015
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
2142018
Comfort under personally controlled air movement in warm and humid environments
Y Zhai, H Zhang, Y Zhang, W Pasut, E Arens, Q Meng
Building and environment 65, 109-117, 2013
1862013
Energy-efficient comfort with a heated/cooled chair: Results from human subject tests
W Pasut, H Zhang, E Arens, Y Zhai
Building and Environment 84, 10-21, 2015
1462015
Human comfort and perceived air quality in warm and humid environments with ceiling fans
Y Zhai, Y Zhang, H Zhang, W Pasut, E Arens, Q Meng
Building and Environment 90, 178-185, 2015
1172015
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
1162018
Effect of a heated and cooled office chair on thermal comfort
W Pasut, H Zhang, E Arens, S Kaam, Y Zhai
HVAC&R Research 19 (5), 574-583, 2013
852013
Using footwarmers in offices for thermal comfort and energy savings
H Zhang, E Arens, M Taub, D Dickerhoff, F Bauman, M Fountain, W Pasut, ...
Energy and Buildings 104, 233-243, 2015
752015
Enabling energy-efficient approaches to thermal comfort using room air motion
W Pasut, E Arens, H Zhang, Y Zhai
Building and Environment 79, 13-19, 2014
602014
Selecting air speeds for cooling at sedentary and non-sedentary office activity levels
Y Zhai, E Arens, K Elsworth, H Zhang
Building and Environment 122, 247-257, 2017
472017
Using air movement for comfort during moderate exercise
Y Zhai, C Elsworth, E Arens, H Zhang, Y Zhang, L Zhao
Building and Environment 94, 344-352, 2015
422015
Evaluating assumptions of scales for subjective assessment of thermal environments–Do laypersons perceive them the way, we researchers believe?
M Schweiker, M André, F Al-Atrash, H Al-Khatri, RR Alprianti, H Alsaad, ...
Energy and Buildings 211, 109761, 2020
402020
Ceiling fan air speeds around desks and office partitions
Y Gao, H Zhang, E Arens, E Present, B Ning, Y Zhai, J Pantelic, M Luo, ...
Building and Environment 124, 412-440, 2017
352017
Indirect calorimetry on the metabolic rate of sitting, standing and walking office activities
Y Zhai, M Li, S Gao, L Yang, H Zhang, E Arens, Y Gao
Building and Environment 145, 77-84, 2018
312018
Using machine learning algorithms to predict occupants’ thermal comfort in naturally ventilated residential buildings
Q Chai, H Wang, Y Zhai, L Yang
Energy and Buildings 217, 109937, 2020
272020
Preferred temperature with standing and treadmill workstations
S Gao, Y Zhai, L Yang, H Zhang, Y Gao
Building and Environment 138, 63-73, 2018
252018
广州典型住宅小区微气候实测与分析
陈卓伦, 赵立华, 孟庆林, 王长山, 翟永超, 王飞
建筑学报 11, 24-27, 2008
252008
Transient human thermophysiological and comfort responses indoors after simulated summer commutes
Y Zhai, S Zhao, L Yang, N Wei, Q Xu, H Zhang, E Arens
Building and Environment 157, 257-267, 2019
242019
Effects of diffuser airflow minima on occupant comfort, air mixing, and building energy use (RP-1515)
E Arens, H Zhang, T Hoyt, S Kaam, F Bauman, Y Zhai, G Paliaga, J Stein, ...
Science and Technology for the Built Environment 21 (8), 1075-1090, 2015
222015
The Scales Project, a cross-national dataset on the interpretation of thermal perception scales
M Schweiker, A Abdul-Zahra, M André, F Al-Atrash, H Al-Khatri, ...
Scientific data 6 (1), 1-10, 2019
212019
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