个人简介:
王海东,哲学博士、教授、博导
建筑环境与能源工程系主任、教工党支部书记
上海市“浦江人才”计划获得者,我校“志远学者”,我校青年五四奖章获得者
科研方向:
主要开展大空间建筑高性能通风、快速CFD模拟、绿色低碳建筑等领域的研究。主持国家自然科学基金项目、上海市浦江人才计划等多项纵向课题,注重科研成果服务行业技术需求,与企业合作开展中法图书馆超低能耗建筑示范、新一代大科学装置地下空间高精度温度控制系统、上海世博植物园被动降温、世界顶尖科学家论坛永久会址等多个标志性项目的技术咨询。
邮箱:whd@usst.edu.cn; haidong.wang@colorado.edu
教育背景:
§ 2013:博士,University of Colorado Boulder
§ 2008:硕士,天津大学
§ 2006:学士,天津大学
专业和学术任职:
§ 上海市制冷学会理事
§ 上海市室内环境净化行业协会副会长
§ Energy and Buildings专刊主编
§ Scientific Reports期刊编委
§ 暖通空调产业技术联盟智能化专业委员会委员
§ 上海市住房和城乡建设委员会绿色建筑专家
§ 中文国际期刊《城市建筑与发展》编委
§ 第二届建筑能源与环境大会(COBEE2012)秘书长
§ 城乡能源与环境国际会议(UREE2018)学术委员会委员
§ 美国采暖制冷空调工程师学会(ASHRAE)会员
§ 国际室内空气质量协会(ISIAQ)会员
§ 多次担任国际会议学术委员和分会场主席,包括第四届国际能源与可持续性会议(ASME International Conference on Energy Sustainability)、第三届国际建筑能源与环境大会(COBEE2015)、第十届国际供暖通风及空调学术会议(ISHVAC2017)分会场主席等
§ 担任多个土木与建筑环境领域国际期刊的审稿人:Building and Environment; Indoor Air; Energy and Buildings; Building Simulation; Sustainable Cities and Society; Indoor and Built Environment; Applied Energy; Sustainability; International Journal of Heat and Mass Transfer;Buildings; International Journal of Environmental Research and Public Health; Architectural Science Review; Journal of Hazardous Materials; Journal of Thermal Science 等.
主持科研项目:
§ 室内气流滞止的湍流输运机制及脉动通风调控研究(国家自然科学基金面上项目)
§ 建筑环境非稳态问题的快速CFD模拟方法研究 (国家自然科学基金青年项目)
§ 基于快速CFD反计算方法的建筑环境污染源实时定位研究 (上海市浦江人才计划)
§ 新一代大科学装置超大超长空间高精度恒温控制与纳米级振动控制关键技术研究(上海市社会发展科技攻关项目子课题)
§ 不同气候区住宅通风模式、空气净化过滤方法、冷热源回收设施的优化(国家重点研发计划子课题)
§ 动态通风房间空气污染源实时定位研究(教育部留学回国基金)
主要学术论著:
§ Wang H.*, Gao H., Dai Y. and Chen Q. 2023. Investigation on the unsteady ventilation performance of oscillating jet air supply through both spontaneous vortex street effect and active modulation. Journal of Building Engineering, 80: 108028.
§ 王海东,朱杰克,孙婵娟. 2023. 装修板材承载率及通风方式对室内甲醛质量浓度的影响. 能源研究与信息, 39(2): 95-103
§ 王海东,周鹏志,王慧等.室内热羽流特性小波分析及数值模拟方法比较[J/OL].我校学报:1-7. https://doi.org/10.13255/j.cnki.jusst.20220530001.
§ 王海东*,陈倩茹,汤毅.2023. 送风温度波动对恒温波荡器隧道温控精度的影响.暖通空调, 53(3): 133-137, 122.
§ Dai Y, Zhang F, Wang H*. 2023. Identification of source location in a single-sided building with natural ventilation: Case of interunit pollutant dispersion. Journal of Building Engineering, 68: 106049.
§ Dai Y, Xu D, Wang H*, Zhang F. 2023. CFD Simulations of Ventilation and Interunit Dispersion in Dormitory Complex: A Case Study of Epidemic Outbreak in Shanghai. International Journal of Environmental Research and Public Health, 20(5): 4603.
§ Shi J, Wang H*, Wang J. 2023. CFD Simulation Study on the Cooling Characteristics of Shading and Natural Ventilation in Greenhouse of a Botanical Garden in Shanghai. Sustainability, 15(4): 3056.
§ Zhou P, Wang H*, Dai Y, et al. On the fast fluid dynamics and fractional step methods to predict the coupled indoor temperature and velocity fields. Building and Environment, 2022: 109959.
§ Wang H.*, Qianru Chen and Yan Liu. 2022. Investigation of the quasi-periodic airflow oscillation and ventilation performance of an enclosed environment with a jet air supply. Energy and Buildings, 265, 112104.
§ Wang H.*, Li X., Tang Yi et al. 2022. Simulation and experimental study on the elbow pressure loss of large air duct with different internal guide vanes. Building Services Engineering Research and Technology. 43(6): 725-739.
§ Zhou P., Wang H.*, Dai Y. and Huang C. 2022. Performance evaluation of different pressure-velocity decoupling schemes in built environment simulation. Energy and Buildings, 257, 111763.
§ Zhai Z.J. and Wang H. 2022. Handbook of Ventilation Technology for the Built Environment: Design, control and testing - Chapter 11: Ventilation system design: fast prediction, The Institution of Engineering and Technology.
§ Zhou P., Wang H.*, Li F., Dai Y. and Huang C. 2022. Development of window opening models for residential building in hot summer and cold winter climate zone of China. Energy and Built Environment, 3(3): 363-372.
§ Hu H., Wang H.*, Zou Z. and Zhu J. 2022. Investigation of inter-zonal heat transfer in large space buildings based on similarity: Comparison of two stratified air-conditioning systems. Energy and Buildings, 254, 111602.
§ 王海东,胡浩,朱杰克,杨昕琦,王瑞鲲. 2022. 大空间建筑下送风分层空调系统区域间换热特性研究. 制冷学报,43(2): 89-96.
§ 王海东,李倩,牟宇.2022. 大空间建筑喷口侧送风分层空调负荷特性研究. 暖通空调,52(4): 138-145.
§ 杨昕琦,王海东*,胡浩. 2022. 大空间建筑分层空调两种典型送风系统区域间换热特性研究. 暖通空调, 52(3): 126-131.
§ Chen Q., Wang H.*, Dai Y. and Hu Y. 2022. Prompt location of indoor instantaneous air contaminant source through multi-zone model-based probability method by utilizing airflow data from coarse-grid CFD model. Indoor and Built Environment, 31(4): 944-954.
§ 何志为, 王海东*, 黄晨, 薛元涛. 2021. 热源和排风作用下的大空间建筑热环境与负荷特性实验研究. 建筑节能(中英文), 49(1): 75-80.
§ 任俊; 陈清焰; 高峣; 张腾飞; 杨允立; 冯雅; 李景广; 孟庆林; 吴青; 王海东; 付祥钊等. 2020.《住宅通风设计标准》T/CSUS 02 2020 中国城市科学研究会标准.
§ Yang X., Wang H.*, Su C., Wang X., Wang Y. 2020. Heat transfer between occupied and unoccupied zone in large space building with floor-level side wall air-supply system. Building Simulation, 13(6): 1221-1233.
§ Wang H.*, Meng X., Chen J.*. 2020. Effect of air quality and dust deposition on power generation performance of photovoltaic module on building roof. Building Services Engineering Research and Technology, 41(1): 73-85.
§ 范雪妮, 王海东*, 胡毅冰. 2020. 基于粗网格CFD模拟方法的室内空气污染物实时寻源反计算研究. 流体机械, 07: 77-83.
§ Xue Y., Wang Y., Peng H., Wang H. and Shen J. 2020. The impact of building configurations and anthropogenic heat on daily urban air temperature cycles. Building and Environment, 169(4): 106564.
§ Li F., Liu X., Liu J., Cai H., Wang H., Zhang K. and Dai C. 2020. Solutions to mitigate the impact of measurement noise on the air pollution source strength estimation in a multi-zone building. Building Simulation, 13: 1329–1337.
§ Li F., Cai H., Xu J., Zhang K., Feng Q. and Wang H. 2020. Gas distribution mapping for indoor environments based on laser absorption spectroscopy: Development of an improved tomographic algorithm. Building and Environment, 172, 106724.
§ Hu Y., Wang H.*, Cheng J., Wang E. 2019. Inverse tracking of an airborne pollutant source location in a residential apartment by joint simulation of CFD and a multizone model. Building Simulation, 12(4): 605-616.
§ Wang H.*, Zhou P., Guo C., Tang X., Xue Y. and Huang C. 2019. On the Calculation of Heat Migration in Thermally Stratified Environment of Large Space Building with Sidewall Nozzle Air-Supply. Building and Environment, 147: 221-230.
§ Wang H.*, Wang H., Gao F., Zhou P., Zhai Z.J.* 2018. Literature review on pressure-velocity decoupling algorithms applied to built-environment CFD simulation. Building and Environment, 143: 671-678.
§ Wang H., Huang C.*, Cui Y. and Zhang Y. 2018. Experimental study on the characteristics of secondary airflow device in a large enclosed space building. Energy and Buildings, 166: 347-357.
§ Wang H.*, Lu S., Cheng J. and Zhai Z.J. 2017. Inverse modeling of indoor instantaneous airborne contaminant source location with adjoint probability-based method under dynamic airflow field. Building and Environment, 117: 178-190.
§ Wang H.*, Tang X. and Huang C. 2017. Investigating ventilation system performance in large space building: A nozzle primary air supply with secondary airflow-relay system. Science and Technology for the Built Environment, 23(2): 296-306.
§ Wang H. and Zhai Z.J.* 2016. Advances in building simulation and computational techniques: A review between 1987 and 2014. Energy and Buildings, 128: 319-335.
§ Wang H., Zhai Z.J.* and Liu X. 2014. Feasibility of Utilizing Numerical Viscosity from Coarse Grid CFD for Fast Turbulence Modeling of Indoor Environments. Building Simulation, 7(2): 155-164
§ Wang H. and Zhai Z.J.* 2012. Application of Coarse Grid CFD on Indoor Environment Modeling: Optimizing the Trade-off between Grid Resolution and Simulation Accuracy. HVAC&R Research, 18(5): 915-933.
§ Wang H. and Zhai Z.J.* 2012. Analyzing Grid-Independency and Numerical Viscosity of Computational Fluid Dynamics for Indoor Environment Applications. Building and Environment, 52: 107-118.
§ Wang H., Zhai Z.J.*, Li Y. and Liu X. 2012. Identifying Index (Source) Patient Location of SARS Transmission in a Hospital Ward. HVAC&R Research, 18(4): 616-625.
§ Zhai Z.J. and Wang H. 2011. Optimizing the Trade-off between Grid Resolution and Simulation Accuracy: Coarse Grid CFD Modeling. Final Report of ASHRAE Research Project 1418.
§ Zhai Z.J., Liu X., Wang H., Li Y. and Liu J. 2012. Experimental Verification of Tracking Algorithm for Dynamically-Releasing Single Indoor Contaminant. Building Simulation, 5(1): 5-14.
§ Wang H., Zhai J.Z., Li Y. and Liu X. 2010. Identifying Sources of SARS Transmission in a Hospital Ward. IAQ2010. November 10-12, 2010. Kuala Lumpur, Malaysia.
§ Liu, J., Wang H. and Wen W. 2009. Numerical simulation on a horizontal airflow for airborne particles control in hospital operating room. Building and Environment, 44(11): 2284-2289.
§ 刘俊杰,王海东. 2008. 燃气辐射供暖房间的供暖负荷计算及能耗分析. 暖通空调, 39(2): 108-112.
课题组为学生搭建良好的科学研究和工程实践平台,课题载体包括国家自然科学基金等基础理论创新研究,以及面向标志性工程项目需求的应用研究,欢迎加入。