姓    名：

张恺

性    别：

男

职    称：

副教授

最高学位：

博士

导师类型：

硕士生导师

工作地点：

江浦校区天工楼305-B

联系方式：

kai.zhang.ch@njtech.edu.cn

研究方向：

天空辐射致冷与建筑节能

教育背景

2012.02-2015.05 东南大学 博士

2004.09-2007.01 东南大学 硕士

2000.09-2004.07 鞍山科技大学 学士

工作经历

2019.07至今    南京工业大学 城市建设学院 副教授

2015.12-2019.06 南京工业大学 城市建设学院 讲师

2016.10-2017.10 美国怀俄明大学 土木与建筑学院 博士后

2007.01-2012.01 江苏省产品质量监督检验研究院 电器产品检测部 工程师

学术兼职情况

中国制冷学会会员，江苏省制冷学会制冷机械设备委员会、冷冻冷藏委员会、教育委员会委员，Buildings编委，Building Simulation客座编辑，20余个SCI国际期刊审稿人

承担科研项目情况

[1] 2019.01-2022.12 国家自然科学基金面上项目“基于超材料光谱选择性膜的辐射致冷机理及其建筑集成机制研究”，负责人

[2] 2019.01-2020.12 江苏省住房和城乡建设厅科技项目“基于超材料光谱选择性膜的建筑热环境调控技术”，负责人

代表性论文与著作

期刊论文（一作和通讯）：

[1] Kai Zhang*, Bingyang Wu. Microscopic mechanism and applications of radiative cooling materials: A comprehensive review. Materials Today Physics, 2025, 51: 101643.

[2] Qingchuang Zou, Kai Zhang*, Xinlong Tai, Zihao Zhang, Fei Xiao, Siying Jiao. Probabilistic thermal analysis and phase transition temperature optimization for low-rise residential buildings with temperature-adaptive radiative cooling roofs. Building and Environment, 2024, 266: 112053.

[3] Kaiyu Jiang, Kai Zhang*, Zijie Shi, Haoran Li, Bingyang Wu, Omid Mahian, Yutong Zhu. Experimental and numerical study on the potential of a new radiative cooling paint boosted by SiO₂ microparticles for energy saving. Energy, 2023, 283: 128473.

[4] Haoran Li, Kai Zhang*, Zijie Shi, Kaiyu Jiang, Bingyang Wu, Peiliang Ye. Cooling benefit of implementing radiative cooling on a city-scale. Renewable Energy, 2023, 212: 372-381.

[5] Mohammad Amin Vaziri Radb, Alibakhsh Kasaeian*, Xiaofeng Niu, Kai Zhang*, Omid Mahian*. Excess electricity problem in off-grid hybrid renewable energy systems: A comprehensive review from challenges to prevalent solutions. Renewable Energy, 2023, 212: 538-560.

[6] Zijie Shi, Kai Zhang*, Kaiyu Jiang, Haoran Li, Peiliang Ye, Haibin Yang, Omid Mahian*. Maximizing energy generation: A study of radiative cooling-based thermoelectric power devices. Energy, 2023, 271: 127283.

[7] Bingyang Wu, Kai Zhang*, Peiliang Ye, Ziyun Niu, Ge Song. Effect of electronic and phonon properties on polar dielectric embedded polymer-based radiative cooling materials. Solar Energy Materials and Solar Cells, 2023, 260: 112473.

[8] Peiliang Ye, Kai Zhang*, Bingyang Wu, Ziyun Niu. A novel atmospheric segmentation model for improving the accuracy of radiative cooling potential prediction. Journal of Quantitative Spectroscopy and Radiative Transfer, 2023, 311: 108785.

[9] Bingru Yao, Kai Zhang*, Jinchen Zhu, Shaojie Wu. Optimization study on the performance of a thermosyphon-based radiative cooler. Indoor and Built Environment, 2023, 32: 425-439.

[10] Jinchen Zhu, Kai Zhang*. A novel multiscale evaluation metric for the thermal management of data centers. Journal of Thermal Science and Engineering Applications, 2023, 15: 011010.

[11] Lufang Chen, Kai Zhang*, Ge Song, Fei Li. Study on the cooling performance of a radiative cooling-based ventilated roof for its application in buildings. Building Services Engineering Research and Technology, 2022, 43: 685-702.

[12] Shaojie Wu, Kai Zhang*, Ge Song, Jinchen Zhu, Bingru Yao, Fei Li. Study on the performance of a miniscale channel heat sink with Y-shaped unit channels based on entransy analysis. Applied Thermal Engineering, 2022, 209: 118295.

[13] Shaojie Wu, Kai Zhang*, Ge Song, Jinchen Zhu, Bingru Yao. Experimental study on the performance of a tree-shaped mini-channel liquid cooling heat sink. Case Studies in Thermal Engineering, 2022, 30: 101780.

[14] Saihong Tang, Nevzat Akkurt, Kai Zhang*, Lufang Chen, Mingquan Ma. Effect of roof and ceiling configuration on energy performance of a metamaterial-based cool roof for low-rise office building in China. Indoor and Built Environment, 2021, 30: 1739-1750.

[15] Mingquan Ma, Kai Zhang*, Lufang Chen, Saihong Tang. Analysis of the impact of a novel cool roof on cooling performance for a low-rise prefabricated building in China. Building Services Engineering Research and Technology, 2021, 42: 26-44.

[16] Zhihao Lu, Kai Zhang*. Study on the Performance of a Y-Shaped Liquid Cooling Heat Sink Based on Constructal Law for Electronic Chip Cooling. Journal of Thermal Science and Engineering Applications, 2021, 13: 034501.

[17] Lufang Chen, Kai Zhang*, Mingquan Ma, Saihong Tang, Fei Li, Xiaofeng Niu. Sub-ambient radiative cooling and its application in buildings. Building Simulation, 2020, 13: 1165-1189.

[18] Zhihao Lu, Kai Zhang*, Jinxiang Liu, Fei Li. Effect of branching level on the performance of constructal theory based Y-shaped liquid cooling heat sink. Applied Thermal Engineering, 2020, 168: 114824.

[19] Yiwen Zhang, Kai Zhang*, Jinxiang Liu, Risto Kosonen, Xialei Yuan. Airflow uniformity optimization for modular data center based on the constructal T-shaped underfloor air ducts. Applied Thermal Engineering, 2019, 155: 489-500.

[20] Yutong Zhu, Kai Zhang*, Jinxiang Liu. Xiaofeng Niu. Chen Jin. Entransy analysis on the performance of the counter-flow heat exchangers for a double evaporating temperature chiller. International Journal of Refrigeration, 2019, 98: 89-97.

[21] Kai Zhang*, Yiwen Zhang, Jinxiang Liu, Xiaofeng Niu. Recent advancements on thermal management and evaluation for data centers. Applied Thermal Engineering, 2018, 142: 215-231.

[22] Kai Zhang, Dongliang Zhao, Xiaobo Yin, Ronggui Yang, Gang Tan*. Energy saving and economic analysis of a new hybrid radiative cooling system for single-family houses in the USA. Applied Energy, 2018, 224: 371-381.

[23] Kai Zhang*, Yutong Zhu, Jinxiang Liu, Xiaofeng Niu, Xiaolei Yuan. Exergy and energy analysis of a double evaporating temperature chiller. Energy and Buildings, 2018, 165: 464-471.

[24] Kai Zhang, Dongliang Zhao, Yao Zhai, Xiaobo Yin, Ronggui Yang, Gang Tan*. Modelling study of the low-pump-power demand constructal T-shaped pipe network for a large scale radiative cooled-cold storage system. Applied Thermal Engineering, 2017, 127: 1564-1573.

[25] Kai Zhang*, Xiaosong Zhang, Shuhong Li. Simplified model for design airflow rate in underfloor air distribution (UFAD) systems. Applied Thermal Engineering, 2016, 93: 244-250.

[26] Kai Zhang*, Xiaosong Zhang, Shuhong Li, Xing Jin. Experimental parametric study on the temperature distribution of an underfloor air distribution (UFAD) system with grille diffusers. Indoor and Built Environment, 2016, 25(5): 748-757.

[27] Kai Zhang*, Xiaosong Zhang, Shuhong Li, Xing Jin. Experimental study on the characteristics of supply air for UFAD system with perforated tiles. Energy and Buildings, 2014, 80:1-6.

[28] Kai Zhang*, Xiaosong Zhang, Shuhong Li, Xing Jin. Review of underfloor air distribution technology. Energy and Buildings, 2014, 85: 180-186.

[29] Kai Zhang, Xiaosong Zhang*, Shuhong Li. Optimization on airflow distribution in data room air-conditioning system with underfloor air distribution. Journal of Southeast University (Natural Science Edition). 2016, 46(1): 62-69. (In Chinese)

[30] Kai Zhang, Xiaosong Zhang*, Shuhong Li. Thermal decay in supply air plenum of underfloor air distribution system. Journal of Southeast University (Natural Science Edition). 2015, 45(4): 720-727. (In Chinese)

会议论文（一作和通讯）：

[1] Bingyang Wu, Kai Zhang*, Peiliang Ye, Ziyun Niu. Optimization study on particle-matrix composite-based radiative cooling materials. ISHVAC 2023, Beijing, China, 2023

[2] Jiang Kaiyu, Kai Zhang*, Zijie Shi, Haoran Li. Study on the cooling energy saving potential of a novel radiative cooling paints in building application. ROOMVENT 2022, Xi’an, China, 2022.

[3] Zijie Shi, Kai Zhang*, Kaiyu Jiang, Haoran Li. Continuous thermoelectric power generation based on radiative cooling. ACRA 2022, Chongqing, China, 2022.

[4] Ge Song, Kaiyu Jiang, Kai Zhang*, Yanfeng Gong. Optimization study on preparation of radiative cooling film based on Mie theory and Monte Carlo method. ACRA 2022, Chongqing, China, 2022.

[5] Lufang Chen, Kai Zhang*, Ge Song. Modeling of heat transfer for the building with metamaterial-based cool roof. ISHVAC 2021, Seoul, Korea, 2021.

[6] Mingquan Ma, Kai Zhang*, Saihong Tang, Lufang Chen, Xiaofeng Niu, Fei Li. Energy saving analysis of low-rise prefabricated building integrating with metamaterial based cool roof in China. ISHVAC 2019, Harbin, China, 2019.

[7] Yiwen Zhang, Kai Zhang*, Jinxiang Liu, Fei Li, Jun Bao. Numerical study on thermal management of data center integrated with underfloor vertical baffles. ISHVAC 2019, Harbin, China, 2019.

[8] Zhihao Lu, Kai Zhang*, Jinxiang Liu. Study on the effects of channel deployment in a S-shaped liquid cooling heat sink for electronic chip cooling. ISHVAC 2019, Harbin, China, 2019.

[9] Saihong Tang, Kai Zhang*, Lufang Chen, Mingquan Ma, Fei Li, Xiaofeng Niu. Performance analysis of the metamaterial based cool roof for single-family houses. ICR 2019, Montreal, Canada, 2019

[10] Kai Zhang*, Xiaosong Zhang, Shuhong Li, Geng Wang. Numerical and Experimental Optimization Study on the Cooling Effect of UFAD System in Data Center. SuDBE 2013, Chongqing, China, 2013.

[11] Kai Zhang*, Xiaosong Zhang, Shuhong Li, Geng Wang. Measurement and Control System of HVAC&R Integration Testing Platform. ISHVAC 2013, Xi’an, China, 2013.

[12]Kai Zhang*, Xiaosong Zhang, Shuhong Li, Geng Wang. Numerical Study on the Thermal Environment of UFAD System with Solar Chimney for the Data Center. SHC 2013, Freiburg, Germany, 2013.

授权发明专利

第一发明人或所指导学生为第一发明人：

[1] 武冰洋, 张恺, 周君明. 一种温湿度可调型织物. 授权公告日: 2024.12.31, 中国发明专利, ZL 202211408845.5.

[2] 姚炳如, 张恺, 马明泉, 陈露芳, 唐赛红, 朱晋辰, 吴少杰. 一种高效被动冷热电综合利用装置. 授权公告日: 2024.10.29, 中国发明专利, ZL 201911161720.5.

[3] 蒋开宇, 张恺, 李浩然, 侍子杰, 姚炳如, 吴少杰, 朱晋辰. 一种新型空调系统. 授权公告日: 2024.09.27, 中国发明专利, ZL 202011513638.7.

[4] 唐赛红, 张恺, 马明泉, 陈露芳, 吴少杰, 朱晋辰, 姚炳如. 一种具有新型通风屋面的集成建筑. 授权公告日: 2024.09.27, 中国发明专利, ZL 201911305718.0.

[5] 马明泉, 张恺, 陈露芳, 唐赛红, 陆志豪, 牛晓峰, 李斐. 一种新型空调末端装置. 授权公告日: 2024.04.26, 中国发明专利, ZL 201910404257.6.

[6] 唐赛红, 张恺, 陈露芳, 马明泉, 陆志豪, 李斐, 牛晓峰. 一种新型分体式空调装置. 授权公告日: 2024.04.26, 中国发明专利, ZL 201910404260.8.

[7] 陈露芳, 张恺, 马明泉, 唐赛红, 陆志豪, 李斐, 牛晓峰. 一种新型冷却塔系统. 授权公告日: 2024.04.26, 中国发明专利, ZL 201910404258.0.

[8] 马明泉, 张恺, 陈露芳, 唐赛红, 陆志豪, 牛晓峰, 李斐. 一种新型空调系统及成套装置. 授权公告日: 2024.04.26, 中国发明专利, ZL 201910404259.5.

[9] 陈露芳, 张恺, 马明泉, 唐赛红, 牛晓峰, 李斐, 陆志豪. 一种新型制冷压缩机. 授权公告日: 2024.02.27, 中国发明专利, ZL 201910476340.4.

[10] 马明泉, 张恺, 陈露芳, 唐赛红, 朱晋辰, 姚炳如, 吴少杰. 一种新型被动式空调系统及其蓄能与释能方法. 授权公告日: 2023.11.17, 中国发明专利, ZL 201911305716.1.

[11] 吴京锦, 张译文, 张恺, 李鹏程, 黄巽, 牛晓峰, 刘金祥. 一种冷热可调型建筑外遮阳装置及冷热调节方法. 授权公告日: 2023.11.14, 中国发明专利, ZL 201810572232.2.

[12] 陆志豪, 张恺, 刘金祥, 朱雨彤, 张译文. 一种适用于数据机房芯片冷却的Y型液冷散热器及成套装置. 授权公告日: 2023.11.10, 中国发明专利, ZL 201810572233.7.

[13] 张译文, 张恺, 刘金祥, 高阳, 陆志豪, 邱兰兰. 一种集成T型树状送风管道系统的地板送风数据中心空调系统. 授权公告日: 2023.10.13, 中国发明专利, ZL 201810234447.3.

[14] 蒋开宇, 张恺, 李浩然, 侍子杰. 一种日间辐射制冷涂料. 授权公告日: 2023.09.29, 中国发明专利, ZL 202211068033.0.

[15] 朱雨彤, 唐赛红, 张恺, 陈露芳, 马明泉, 李斐, 牛晓峰. 一种新型汽车空调系统. 授权公告日: 2023.04.25, 中国发明专利, ZL 201910476339.1.

[16] 蒋开宇, 张恺, 李浩然, 侍子杰, 武冰洋, 姚炳如, 吴少杰. 一种热管换热空调系统, 2023, 中国, ZL 202111454943.8.

[17] 吴少杰, 张恺, 陈露芳, 唐赛红, 马明泉, 陆志豪, 朱晋辰, 姚炳如. 一种基于冲击冷却的T型管道芯片散热器及成套装置, 2023.02.03, 中国, ZL 202010359752.2.

[18] 朱晋辰, 张恺, 马明泉, 陈露芳, 唐赛红, 姚炳如, 吴少杰. 一种适用于数据中心的新型行级冷板冷却系统及其成套装置, 2023.02.03, 中国, ZL 202010359753.7.

[19] Lufang Chen, Kai Zhang, Ge Song, Xiaofeng Niu, Fei Li. Passive cooling/heating double-effect material. Issue date: 2022.10.17, Priority: 2019.12.17, Luxembourg, LU502295.

[20] 张恺, 陈露芳, 马明泉, 唐赛红, 牛晓峰. 一种被动式朝向无关的冷热双效材料, 2022.04.08, 中国, ZL 202010084310.1.

[21] 李浩然, 张恺, 蒋开宇, 侍子杰, 姚炳如, 吴少杰, 朱晋辰. 一种新型被动式蓄能型空调系统, 2022.02.08, 中国, ZL 202011513639.1.

[22] 张恺, 孙雷, 牛晓峰, 蔡力腾, 王明钰. 一种用于空气除湿除尘的一体化装置及除湿除尘方法, 2021.07.30, 中国, ZL 201610627462.5.

[23] 张恺, 王明钰, 牛晓峰, 蔡力腾, 孙雷. 一种空气处理装置及方法, 2021.07.20, 中国, ZL 201610630300.7.

[24] 张恺, 蔡力腾, 牛晓峰, 王明钰, 孙雷. 一种新型暖体假人系统, 2018.08.17, 中国, ZL 201610631456.7.

[25] 张恺, 张小松, 李舒宏. 水环式相变蓄能型地板送风空调系统及其蓄能释能方法, 2014.12.17, 中国, ZL 201210440898.5.

[25]张恺, 张小松, 李舒宏. 空气源相变蓄能型地板送风空调系统及其蓄能释能方法, 2014.12.17, 中国, ZL 201210445067.7.