伍志斌

2015.09-2020.06，湖南大学，土木工程，博士（导师：李念平教授）

2018.09-2019.09, 丹麦技术大学，土木工程，国家留学基金委资助的联合培养博士研究生（导师：Pawel Wargocki教授）

2011.09-2015.06，湖南大学，建筑环境与设备工程，学士

2024.09-至今，华南理工大学，建筑学院，准聘教授

2021.09-2024.08，卡尔斯鲁厄理工学院，洪堡学者（中国第一位建筑学科入选者，合作教授：Andreas Wagner教授）

2020.08-2021.08，加州伯克利分校SinBerBEST中心，研究员（合作教授：加州伯克利分校Stefano Schiavon教授, 新加坡国立大学Tham Kwok Wai教授）

服务于“健康中国”和“双碳“目标等国家战略，围绕建筑环境舒适与节能、人体生理、功效和健康领域的医工交叉学科等关键基础问题研究，重点针对建筑环境人因工程室内外多环境因素耦合营造、舒适性机理和节能优化体系研究，构建系统化理论模型和技术路径，形成人与建筑交互的双重体系构建：人体舒适-健康-高效，建筑安全-节能。

现阶段重点研究和招生方向如下：

研究方向：建筑环境人因工程、环境神经科学、绿色建筑技术

招生方向：建筑技术科学（学博、学硕）、建筑学（专硕）

主持或主要参与国内外科研项目10余项，以第一作者或通讯作者发表国际顶级期刊及会议论文20余篇，通过洪堡基金会、国际能源署项目、全球热舒适生理参数数据库活动、新加坡科技部重大专项及国际期刊建设开展了广泛而深入的国际合作，长期保持与加州伯克利分校，丹麦技术大学，悉尼大学，洛桑联邦理工，法国国家科学研究院，新加坡国立大学和亚琛工业大学等国际顶尖科研机构的联系与合作。

主要科研项目：

[1]  洪堡基金会项目，Machine learning based comfort prediction by physiological responses in buildings (3.5–1214663–CHN–HFST-P)，2021/11-2023/11，结题，主持

[2]  国际能源署建筑与社区能源项目，IEA-EBC-Annex 87 – Personalized Environmental Control System，2022-2025，在研，德国官方主持之一

[3]  德国科学基金会DFG项目，Multi-dimensional Comfort Models - Development of a systematic approach to theory, design of experiments and modelling (498385769)，2023.01-2025.12，在研，主要参与

[4]  新加坡科技部重大科技专项，Building Efficiency and Sustainability in the Tropics 2，2017-2022，结题，主要参与

[5]  科技部“十三五”国家重点研发计划，长江流域建筑供暖空调适宜技术集成及工程示范(2016YFC0700306-02)，2016.06-2020.04，结题，课题联系人

[6]  丹麦BJARNE SAXHOFS FOUNDATION项目，Limiting Criteria for Using the Adaptive Thermal Comfort Model in Offices，2017.06-2020.04，结题，主要参与

[7]  国家自然科学基金面上项目，基于人体换热的多辐射壁面建筑室内冷负荷特性与能耗优化研究(51878255)，2019.01-2022.12，结题，主要参与

[8]  国家自然科学基金面上项目，多辐射冷壁面组合的建筑室内热环境条件下人体换热特性与热舒适研究(51578220)，2016.01-2019.12，结题，主要参与

主要学术论著：

期刊论文：

[1] Z. Wu*, A. Wagner. Thermal comfort of students in naturally ventilated secondary schools in countryside of hot summer cold winter zone, China. Energy and Buildings 305 (2024): 113891.

[2] Z. Wu*, A. Wagner. Effect of short-term thermal history on thermal comfort and physiological responses: A pilot study. Energy and Buildings (2023): 113510.

[3] Z. Wu*, A. Wagner. Thermal environment of rural residential buildings in Hengyang, China: A two-year on-site study. Building and Environment 243 (2023): 110659.

[4] X. Da, F. Zhong, Z. Bai, Z. Wu*, X. Yang, and M. Gao. Real-time multi-energy demand response for high-renewable buildings. Energy and Buildings 281 (2023): 112764.

[5] X., Da, Z. Bai, T. Wang, Z. Wu, K. Zhang. An energy-based control scheme for optimal power quality management in 12-pulse rectifier integrated distribution systems. International Journal of Electrical Power & Energy Systems 145 (2023): 108707.

[6] Z. Wu*, N. Li, Stefano, S. Experimental evaluation of thermal comfort, SBS symptoms and physiological responses in a radiant ceiling cooling environment under temperature step-changes. Building and Environment, 2022, 224, 109512.

[7] Z. Wu*, N. Li, L. Lan, P. Wargocki, The effect of inhaled air temperature on thermal comfort, perceived air quality, acute health symptoms and physiological responses at two ambient temperatures. Indoor air, 2022, 32(8), e13092.

[8] X. Da, Z. Yuan, Z. Bai, Z. Wu, S. Chen, M. Zhou. Optimal operation of geothermal-solar-wind renewables for community multi-energy supplies. Energy 249 (2022): 123672.

[9] J. Li, K. Afsari, N. Li, J. Peng, Z. Wu, H. Cui. A review for presenting building information modeling education and research in China. Journal of Cleaner Production 259 (2020): 120885.

[10] Z. Wu, N. Li*, J. Peng, J. Li, Effect of long-term indoor thermal history on human. physiological and psychological responses: A pilot study in university dormitory buildings. Building and Environment, 2019, 166: 106425.

[11] Z. Wu, N. Li*, P. Wargocki, J. Peng, J. Li, H. Cui, Field study on thermal comfort and energy. saving potential in 11 split air-conditioned office buildings in Changsha, China. Energy, 2019, 182: 471-482.

[12] J. Li, N. Li*, K. Afsari, J. Peng, Z. Wu, H. Cui. Integration of Building Information Modeling and Web Service Application Programming Interface for assessing building surroundings in early design stages. Building and Environment, 2019, 153: 91-100.

[13] Z. Wu, N. Li*, P. Wargocki, J. Peng, J. Li, H. Cui, Adaptive thermal comfort in naturally. ventilated dormitory buildings in Changsha, China[J]. Energy and Buildings,2019, 186: 56-70.

[14] J. Li, N. Li*, J. Peng, H. Cui, Z. Wu. Energy consumption of cryptocurrency mining: A study of electricity consumption in mining cryptocurrencies. Energy, 2019, 168: 160-168

[15] H. Cui, N. Li*, J. Peng, R. Yin, J, Li, Z. Wu. Investigation on the thermal performance of a novel spray tower with upward spraying and downward gas flow. Applied Energy, 2018, 231: 12-21.

[16] J. Li, N. Li*, J. Peng, H. Cui, Z. Wu. A review of currently applied building information modeling tools of constructions in China. Journal of Cleaner Production, 2018, 201: 358-368.

[17] Z. Wu, N. Li*, J. Peng, H. Cui, P. Liu, H. Li, X. Li, Using an ensemble machine learning. methodology-Bagging to predict occupants’ thermal comfort in buildings[J]. Energy and Buildings, 2018, 173: 117-127.

[18] Z. Wu, N. Li*, H. Cui, H. Chen, P. Liu, Using Upper Extremity Skin Temperatures to Assess. Thermal Comfort in Office Buildings in Changsha, China. International Journal of Environmental Research & Public Health, 2017, 14.10: 116-119.

[19] H. Cui, N. Li*, X. Wang, J. Peng, Y. Li, Z. Wu. Optimization of reversibly used cooling tower with downward spraying [J]. Energy, 2017, 127:30-43.

[20] H. Cui, N. Li*, J. Peng, J. Cheng, N. Zhang, Z. Wu, Modeling the particle scavenging and thermal efficiencies of a heat absorbing scrubber. Building and Environment, 2017, 111: 218-227.

[21] N. Li*, X. Fang, Z. W, X. Shen, Z. Wu, Research on Thermal Environment of Residences and Thermal. Comfort Sensation of Elderly in Rural Areas of Western Hunan in Winter. Journal of Hunan University (Natural Science), 2019,46(07):123-128. (EI, in Chinese)

[22] N. Li*, P. Liu, Z. Wu, Field survey on summer thermal comfort and adaptation of university dormitories. in Changsha. Journal of Harbin Institute of Technology, 2019,51(04):194-200. (EI, in Chinese)

大会报告及研讨会：

[1] Z. Wu* et.al, Global Database of Thermal Comfort Physiological Responses. Healthy Buildings 2023 Europe, June 11-14, 2023 in Aachen, Germany. (Z. Wu is the leader and the chairman)

[2] Z. Wu* et.al, Global Database of Thermal Comfort Physiological Responses. ISHVAC 2023, November 11-14, 2023 in Beijing, China. (Z. Wu is the leader and the chairman)

[3] Z. Wu*, A. Wagner, C. Wu, Effect of Seasonal Adaptation on Indoor Thermal Comfort of Students in HSCW Zone of China – One Year Long-term Field Study. Healthy Buildings 2023 Asia, July 17-19, 2023 in Tianjin, China. (Z. Wu is the session chairman)

[4] Z. Wu*, S. Schiavon, A. Wagner, Effect of short-term thermal history on human physiological and psychological responses: A pilot study. Healthy Buildings 2023 Europe, June 11-14, 2023 in Aachen, Germany.

[5] Z. Wu*, P. Wargocki, N. Li, An effect of inhaled temperature on thermal comfort, perceived air quality, acute health symptoms and physiological responses. Indoor Air 2022, July 12-16, 2022 in Kuopio, Finland.

[6] Z. Wu, N. Li*, P. Wargocki, Effect of short-term thermal history on perceived air quality, sick building symptoms, and cognitive performance. Healthy Buildings 2019 Asia and Pacific Rim (HB2019 Asia), October 22-25, 2019 in Changsha, China.

[7] G. Yao, N. Li*, Z. Wu, C. Xu, J. Zhang, Investigation of Dynamic Thermal Comfort and Air. Velocity Preference in Different Transient Environment in Summer. The 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2019), July 12 to 15 , 2019 in Harbin, China.

[8] C. Xu, N. Li*, Z. Wu, G. Yao, J. Zhang, Exploring Thermal Comfort and Dynamic Work. Performance in Different Transient Thermal Environment in Summer. The 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2019), July 12 to 15 , 2019 in Harbin, China.

[9] L. Zhou, N. Li*, C. Song, Y. He, Z. Wu, A Field study on Heating, Ventilation and Energy. Consumption in Ancient Villages in Guangxi, south-west of China. The 8th International Conference on Sustainable Development in Building and Environment (SuDBE 2017), November 11-13, 2017 in Chongqing, China.

[10] Z. Wu, N. Li*, L. Zhou, et al. Field study of thermal comfort for office buildings in Changsha, China. The 8th International Conference on Sustainable Development in Building and Environment (SuDBE 2017), November 11-13, 2017 in Chongqing, China.

获奖经历：

[1]  洪堡学者，德国洪堡基金会，2021

[2]  湖南省优秀毕业生，教育部，2020

[3]  博士研究生国家奖学金，教育部，2019

期刊兼职

[1]  担任Building Simulation 期刊青年编辑

[2]  担任Frontiers in Built Environment期刊审稿编辑

[3]  担任Buildings期刊客座编

[4]  担任Scientific Data, Applied Energy，Building and Environment和Energy and Buildings等20余个国际顶级SCI期刊审稿人

[5]  ISIAQ会员

国际学术会议重要职务和邀请报告

[1]  Healthy Buildings Asia 2019、Healthy Buildings Asia 2023分会场主席

[2]  Healthy Buildings Europe 2023、ISHVAC 2023研讨会主席

[3]  洪堡基金会、国际能源署ANNEX 87项目邀请报告，2022