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Wu Xiaozhou, Zhao Jianing*, Olesen W. Bjarne, Fang Lei. A Novel Human Body Exergy Consumption Formula to Determine Indoor Thermal Conditions for Optimal Productivity in Office Buildings, Energy and Buildings, 2013(56):48-55 (SCI)
Wu Xiaozhou, Olesen W. Bjarne, Fang Lei, Zhao Jianing*. A Nodal Model to Predict Vertical Temperature Distribution in a Room with Floor Heating and Displacement Ventilation , Building and Environment, 2013(59):626-634 (SCI)
Wu Xiaozhou*, Zhao Jianing, Olesen W. Bjarne, Fang Lei, Wang Fenghao. A New Simplified Model to Calculate Surface Temperature and Heat Transfer of Radiant Floor Heating and Cooling Systems. Energy and Buildings.2015(105):285-293 (SCI)
Wu Xiaozhou*, Fang Lei, Olesen W. Bjarne, Zhao Jianing, Wang Fenghao. Air Distribution in a Multi-occupant Room with Mixing or Displacement Ventilation with or without Floor or Ceiling Heating. Science and Technology for the Built Environment.2015,21(8):1109-1116 (SCI)
Wu Xiaozhou* , Zhao Jianing & Wang Fenghao. Simplified NTU Formulas for the Thermal Performance Calculation of Multi-Pass Fin-Tube Heat Exchangers. Science and Technology for the Built Environment.2015,21(2):238-245 (SCI)
Wu Xiaozhou*, Olesen W. Bjarne, Fang Lei, Zhao Jianing, Wang Fenghao, Indoor Temperatures for Calculating Room Heat Loss and Heating Capacity of Radiant Heating Systems Combined with Mechanical Ventilation Systems. Energy and Buildings.2016(112)141-148 (SCI)
Wang Zhihua, Wang Fenghao*, Ma, Zhenjun, Wang Xinke, Wu, Xiaozhou. Research of heat and moisture transfer influence on the characteristics of the ground heat pump exchangers in unsaturated soil. Energy and Buildings.2016(130) 140-149 (SCI)
Huan Chao,Wang Fengha*, Lin Zhang. Wu Xiaozhou, Ma Zhenjun, Wang Zhihua. An experimental investigation into stratum ventilation for the cooling of an office with asymmetrically distributed heat gains. Building and Environment. 2016(110)76-88 (SCI)
Wang Zhihua, Wang Fenghao*, Wu Xiaozhou and Tian Chun, Experimental investigation on dynamic performance of air-source heat pump water heater using R134a. International Journal of Exergy, 2016, 19(2):276-294 (SCI)
Wu Xiaozhou*, Liu Yujia, Wang Fenghao, Liu Genlin., Effect of Supply Air Temperature on Thermal Comfort in a Room with Radiant Heating and Mechanical Ventilation. International Journal of Energy Procedia, 2017, 121:206-213 (EI)
Wu Xiaozhou*, Fang Lei, Olesen W. Bjarne, Zhao Jianing, Wang Fenghao, Effect of Supply Air Temperature on Air Distribution in a Room with Radiant Heating and Mechanical Ventilation. ASHRAE Transactions, 2017, 123:120-128 (EI)
Wang Zhihua, Wang Fenghao*, Ma Zhenjun, Wu Xiaozhou, Song Mengjie, Dynamic character investigation and optimization of a novel air-source heat pump system, Applied Thermal Engineering 2017 (111) 122–133 (SCI)
Wu Xiaozhou*, Fang Lei, Olesen W. Bjarne, Zhao Jianing, Wang Fenghao, Comparison of Indoor Air Distribution and Thermal Environment for Different Combinations of Radiant Heating Systems with Mechanical Ventilation Systems. Building Services Engineering Research and Technology.2018, 39(1): 81-97 (SCI)
Huan Chao,Wang Fenghao*, Wu Xiaozhou, Lin Zhang.. Development of a nodal model for predicting the vertical temperature profiles in a stratum-ventilated room. Energy and Building .2018(159)99-108 (SCI)
Wang Haichao, Di Pietro Giulia, Wu Xiaozhou*, Lahdelma Risto, Vittorio Verda, Haavisto Ilkka. Renewable and sustainable energy transitions for countries with different climates and renewable energy sources potentials. Energies, 2018, 11(12):3523 (SCI)
Wu Xiaozhou, Gao Jie, Wang Haichao*, Fang Lei, Olesen W. Bjarne, Indoor Thermal Environment and Air Distribution in a Floor-Ceiling Heating Room with Mixing or Displacement Ventilation. Science and Technology for the Built Environment,2019, 25(3):346-355 (SCI)
Wu Xiaozhou, Gao Jie, Wang Haichao*, Wang Fenghao, Tian Zhen, Impact of Chilled Ceiling in a High Sensible Cooling Load Room with Underfloor Air Distribution. Science and Technology for the Built Environment.2019,25(6):705-715 (SCI)
Gao Jie, Wang Yi, Wu Xiaozhou*, Gu Xianghong, Song Xiaocheng, A Simplified Indoor Wet-Bulb Globe Temperature Formula to Determine Acceptable Hot Environmental Parameters in Naturally Ventilated Buildings. Energy and buildings. 2019(196):169-177 (SCI)
Gao Jie, Wang Haichao, Wu Xiaozhou*, Wang Fenghao, Tian Zhen. Indoor air distribution in a room with underfloor air distribution and chilled ceiling: Effect of ceiling surface temperature and supply air velocity. Indoor and Built Environment. 2020. 29( 2) :151-162 (SCI)
Xiaozhou Wu, Jie Gao, Pin Lv, Haichao Wang*, Shugang Wang & Fenghao Wang: Impact of chilled ceiling on indoor air distribution in a room with mixing ventilation, Science and Technology for the Built Environment,2020,26(3):366-376 (SCI)
Wu Xiaozhou, Wang Haichao, Gao Jie*, Tian Zhen. Influence of sensible cooling load on indoor air distribution in a ceiling cooling room with mixing ventilation. Indoor and Built Environment.2020.5 https://doi.org/10.1177/1420326X20924819 (SCI)
Zhen Tian, Liu Yang, Xiaozhou Wu, Zhenzhong Guan , A Field Study of Occupant Thermal Comfort with Radiant Ceiling Cooling and Overhead Air Distribution System, Energy & Buildings(2020), doi: https://doi.org/10.1016/j.enbuild.2020.109949 (SCI)
Haichao Wang, Lin Duanmu, Xiaozhou Wu*, Xiangli Li, Risto Lahdelma,Operational strategies and pumping energy saving potential of the combined district heating system with peak shaving gas-fired boilers in heating substations. Science and Technology for the Built Environment ,2020,26(9)1216-1230 (SCI)
Li, X.; Wang, H.; Wu, X.; Duanmu, L.; Teppo, E.; Lahdelma, R.; Li, J.; Yu, L. Analysis on the Thermal Balance and Operational Parameters for the District Heating System with Peak Load Boilers in Heating Substations. Energies 2020, 13, 6180. (SCI)
Jie Gao, Yi Wang, Xiaozhou Wu*, Yashan Cui. A New Evaluation Index for Indoor Hot Environment in Naturally Ventilated Building with Hot Surface. Indoor and Built Environment. 2021. (SCI)
Haichao Wang. Xiaozhou Wu. Zheyi Liu. Waste heat recovery mechanism for coal-fired flue gas in a counter-flow direct contact scrubber. Energy 2021(SCI)
Xiaozhou Wu, Genglin Liu, Jie Gao, Shuang Wu. Impact of ventilation system type on indoor thermal environment and human thermal comfort in a ceiling cooling room. Thermal Science 2022(SCI)
Haichao Wang, Pengmin Hua, Xiaozhou Wu, et al. Heat-power decoupling and energy saving of the CHP unit with heat pump based waste heat recovery system. Energy, 2022, DOI: 10.1016/j.energy.2022.123846. (SCI)
Wang Shugang, Li Shuangshuang. Jiang Shuang and Wu Xiaozhou. Analysis of the Air‐Reversed Brayton Heat Pump with Different Layouts of Turbochargers for Space Heating. Buildings 2022, 12, 870. https://doi.org/10.3390/buildings12070870(SCI)
Yunfeng Wang, Xiaozhou Wu*, Jie Gao, Airong Feng, Jun Wang, Dong Liu, Xiang Zhou, Simplified model for heat transfer and surface temperature of prefabricated radiant heating and cooling system, Energy and Buildings,2022,276:112522,(SCI)
Xiaozhou Wu, Genglin Liu, Zhen Tian, Jie Gao. Occupant’s Thermal Comfort in a Radiant Ceiling Cooling Room with Hot Wall Surface. Indoor and Built Environment,2022(SCI) https://doi.org/10.1177/1420326X2211353
Dong Liu , Na Liu , Donglin Ren, Xiaozhou Wu, Jun Wang , Yabin Tian , Anjie Hu , Li Wan and JialanWen. The Thermal Responses between Young Adults and Preschool Children in a Radiant Floor Heating Environment. Buildings 2022,12.2234(SCI)
Meng Su, Jiying Liu, Moon Keun Kim, Xiaozhou Wu,Predicting moisture condensation risk on the radiant cooling floor of an office using integration of a genetic algorithm-back-propagation neural network with sensitivity analysis, Energy and Built Environment, 2022
Mengying Cui, Jiying Liu, Moon Keun Kim, Xiaozhou Wu. Application potential analysis of different control strategies for radiant floor cooling systems in office buildings in different climate zones of China, Energy and Buildings,2023(SCI)
Jie Gao, Miao Liu, Shuang Wu, Genglin Liu, Xiaozhou Wu*, Zhen Tian, Xiangli Li, Yang Lv, Occupant’s thermal responses to asymmetric radiant thermal environment with warm wall and cool ceiling, Part A: Overall thermal responses, Energy and Buildings,2023(286)112950(SCI)