赵东亮 - 东南大学 - 能源与环境学院

个人简介

赵东亮，男，1987年9月生，安徽芜湖人，中共党员，制冷与建筑环境系研究员（上岗），博士生导师。2008年本科毕业于南京航空航天大学建筑环境与设备工程专业，2011年硕士毕业于上海交通大学制冷与低温工程研究所暖通专业，2014年博士毕业于美国怀俄明大学土木与建筑工程专业，此后在美国科罗拉多大学博尔德分校机械工程系进行博士后研究，2019年9月入职东南大学。主要从事以天空辐射制冷为代表的新型制冷原理与技术、热管理材料与器件以及建筑节能领域的前沿研究工作。在Science、Joule等期刊上发表论文30余篇，论文被引1900余次，h指数16，获授权2项中国专利，1项美国专利，是包括Science Advances等在内的30余种国际知名SCI期刊审稿人，曾多次受高校和企业界邀请在国际国内作学术交流报告。科研成果曾入选Physics World评选的2017年度国际物理学10大突破，并吸引了英国广播公司、经济学人、福布斯等全世界上百家媒体报道，曾受邀在美国华盛顿向国会议员进行成果宣讲。教学课程科研教改项目 7. 南京留学人员科技创新项目择优资助，2020，主持 6. 江苏省自然科学基金青年基金项目，辐射制冷表面受大气环境影响的规律及其机理研究，2020/7 - 2023/6，主持 5. 东南大学新进教师科研启动经费，2020/1 - 2020/12，主持。 4. 企业项目，基于光谱选择性辐射制冷超材料的冷能空调系统设计和开发，2019/11 - 2020/10，主持。 3. 美国能源部项目，Radiative Cooled Cold Storage Modules and Systems，2015/7 - 2018/7，参与。 2. 美国能源部项目，Thermoregulatory Clothing System for Building Energy Saving，2015/4 - 2018/9，参与。 1. 作为主要成员参与国家自然科学基金项目2项，国家科技支撑计划项目2项。专利申请 3. Ronggui Yang, Xiaobo Yin, Gang Tan, Dongliang Zhao, Yaoguang Ma and Yao Zhai, Radiative Cooling Structures and Systems, Publication No. US20170248381 A1, Publication date: Aug 31, 2017 2. 李勇，吕光召，赵东亮，徐静，王如竹。一种用于温室供暖的太阳能蓄热供暖装置，专利类型：发明专利，专利号：ZL 2012 1 0004044.2，申请日期：2012年01年06日，授权公告日：2014年05月21日 1. 代彦军，李勇，王如竹，赵东亮，基于太阳能空气集热器的建筑供热采暖系统，专利类型：发明专利，专利号：ZL 2010 1 0129566.6，申请日期：2010年3月23日，授权公告日：2012年09月19日荣誉奖励 3. 首届Energy and Built Environment优秀青年学者“学术新人奖”（全球45名华人青年学者中仅3位获奖）, 2019 2. 第一作者论文“A review of thermoelectric cooling: materials, modeling and applications”获Applied Thermal Engineering杂志最高被引论文奖（mosted cited papers in 2014-2016）, 2017 1. 美国机械工程师学会杰出审稿人奖（Outstanding reviewer award）, 2016 指导学生博士生：戴照峰，《压卡制冷》，2019.9 -，合作指导硕士生：王佳云，《待定》，2020.9 - 徐第开，《待定》，2019.9 -，合作指导朱亚著，《基于机器学习的天空辐射制冷特性研究》，2018.9 -，合作指导本科毕业设计： 2016级：崔增恺，汪流畅欢迎具有工程热物理、材料、化学、化工等相关专业背景的同学报考硕士研究生和博士研究生。

研究领域

1. 新型制冷原理与技术 2. 先进热管理材料与器件 3. 冷热能存储 4. 可再生能源与建筑节能

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

截至2020年6月，Google Scholar引用1900余次，h指数16，Web of Science引用1100余次，*表示通讯作者 30. Lun Lou, Dahua Shou, Huiju Park, Dongliang Zhao, Yuen Shing Wu, Xiaonan Hui, Ronggui Yang, Edwin Chihchuan Kan, Jintu Fan, Thermoelectric air conditioning undergarment for personal thermal management and HVAC energy saving, Energy and Buildings, Vol. 226, 110374, 2020. [link] 29. Dongliang Zhao, Xiaobo Yin, Jingtao Xu, Gang Tan, Ronggui Yang, Radiative sky cooling-assisted thermoelectric cooling system for building applications, Energy, Vol.190, 116322, 2020. [link] 28. Luxing Wang, Xing Lu, Xingfei Yu, Dongliang Zhao, Wei Ren, Qiuwang Wang, Ting Ma, Effect of operating temperature on interface diffusion and power generation bismuth telluride thermoelectric modules, Heat Transfer Research, 51(3), 253-262, 2020. [link] 27. Dongliang Zhao, Ablimit Aili, Xiaobo Yin, Gang Tan, Ronggui Yang, Roof-integrated radiative air-cooling system to achieve cooler attic for building energy saving, Energy and Buildings, Vol. 203, 109453, 2019.[link] 26. Ablimit Aili, Zhiyuan Wei, Yizhou Chen, Dongliang Zhao, Ronggui Yang, Xiaobo Yin, Selection of polymers with functional groups for day-time radiative cooling, Materials Today Physics, Vol. 10, 100127, 2019. (IF: 10.4). [link] 25. S. Manikandan, C. Selvam, P. Pavan Sai Praful, Ravita Lamba, S. C. Kaushik, Dongliang Zhao*, Ronggui Yang, A novel technique to enhance thermal performance of a thermoelectric cooler using phase-change materials, Journal of Thermal Analysis and Calorimetry, 2019. [link] 24. Hong Fang, Dongliang Zhao, Jinchao Yuan, Ablimit Aili, Xiaobo Yin, Ronggui Yang, and Gang Tan, Performance evaluation of a metamaterial-based new cool roof using improved Roof Thermal Transfer Value (iRTTV) model, Applied Energy, 248 (2019), 589-599. [link] 23. Dongliang Zhao, Ablimit Aili, Yao Zhai, Shaoyu Xu, Gang Tan, Xiaobo Yin, Ronggui Yang, Radiative sky cooling: Fundamentals principles, Materials, and Applications, Applied Physics Reviews, 6(2), 021306, 2019. (IF: 17.1，ESI高被引论文，Web of Science被引25次). [link] 22. Ablimit Aili, Dongliang Zhao, Jiatao Lu, Yao Zhai, Xiaobo Yin, Gang Tan, Ronggui Yang, A kW-scale, 24-hour continuously operational, radiative sky cooling system: Experimental demonstration and predictive modeling, Energy Conversion and Management, 186 (2019) 586-596. [link] 21. Dongliang Zhao, Ablimit Aili, Yao Zhai, Jiatao Lu, Dillon Kidd, Gang Tan, Xiaobo Yin, Ronggui Yang, Subambient cooling of water: Toward real-world applications of daytime radiative cooling, Joule, 2019, 3(1), 111-123. (IF: 27.1，ESI高被引论文，Web of Science被引41次). [link]. 部分媒体报道：ScienceDaily [link], 新华网 [link], China.org.cn [link], Phys.org [link], BBC news [link], CleanTechnica [link], EurekAlert! [link], Cooling Post [link], RAC [link] 20. Rongfu Wen, Shanshan Xu, Dongliang Zhao, Lixin Yang, Xuehu Ma, Wei Liu, Yung-Cheng Lee, Ronggui Yang, Sustaining enhanced condensation on hierarchical copper mesh-covered surfaces, National Science Review, 2018, 5(6), 878-887. (IF: 16.7). [link] 19. Dongliang Zhao, Xing Lu, Tianzhu Fan, Yuen Shing Wu, Lun Lou, Qiuwang Wang, Jintu Fan, Ronggui Yang, Personal thermal management using portable thermoelectrics for potential building energy saving, Applied Energy, 218 (2018) 282-291. [link] 18. Xing Lu, Dongliang Zhao, Ting Ma, Qiuwang Wang, Ronggui Yang, Thermal resistance matching for thermoelectric cooling systems, Energy Conversion and Management, 169 (2018) 186-193. [link] 17. Kai Zhang, Dongliang Zhao, Xiaobo Yin, Ronggui Yang, Gang Tan, Energy Performance and economic analysis of a new hybrid radiative cooling system for single-house buildings in USA, Applied Energy, 224 (2018) 371-381. [link] 16. Rongfu Wen, Shanshan Xu, Dongliang Zhao, Yung-Cheng Lee, Xuehu Ma, Ronggui Yang, Hierarchical superhydrophobic surfaces with micropatterned nanowire arrays for high-efficiency jumping droplet condensation, ACS Applied Materials and Interfaces, 2017, 9(51), 44911 - 44921. [link] 15. Dongliang Zhao, Christine Elizabeth Martini, Siyu Jiang, Yaoguang Ma, Yao Zhai, Gang Tan, Xiaobo Yin, Ronggui Yang, Development of a single-phase thermosiphon for cold collection and storage of radiative cooling, Applied Energy, 205 (2017) 1260 - 1269. [link] 14. Hong Fang, Dongliang Zhao*, Gang Tan*, Anthony Denzer, Study of underfloor air distribution using zonal model-based simulation and experimental measurements, Energy and Buildings, 152 (2017) 96-107. [link] 13. Kai Zhang, Dongliang Zhao, 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, 127 (2017) 1564 - 1573. [link] 12. Yao Zhai, Yaoguang Ma, Sabrina N. David, Dongliang Zhao, Runnan Lou, Gang Tan, Ronggui Yang, Xiaobo Yin, Scalable-manufactured randomized glass-polymer hybrid metamaterial for daytime radiative cooling, Science, 355 (2017) 1062 - 1066. (IF: 41.8，ESI高被引论文，Web of Science被引333次). [link]. 部分媒体报道：Forbes [link], ScienceDaily [link], Science [link], Nature [link], PhysicsWorld [link] 11. Rongfu Wen, Qian Li, Jiafeng Wu, Gengsheng Wu, Wei Wang, Yunfei Chen, Xuehu Ma, Dongliang Zhao, Ronggui Yang, Hydrophobic copper nanowires for enhancing condensation heat transfer, Nano Energy 33 (2017) 177-183.(IF: 16.6，ESI高被引论文，Web of Science被引77次). [link] 10. Dongliang Zhao, Xin Qian, Xiaokun Gu, Saad Jajja, and Ronggui Yang, Measurement techniques for thermal conductivity and conductance of bulk and thin film materials, Journal of Electronic Packaging, 138 (4), 040802, 2016.(ESI高被引论文，Web of Science被引109次). [link] 9. Dongliang Zhao, Gang Tan, Numerical analysis of a shell-and-tube latent heat storage unit with fins for air-conditioning application, Applied Energy, 138 (2015) 381-392. [link] 8. Gang Tan, Dongliang Zhao*, Study of a thermoelectric space cooling system integrated with phase change material, Applied Thermal Engineering, 86 (2015) 187-198. [link] 7. Dongliang Zhao, Gang Tan, Experimental evaluation of a prototype thermoelectric system integrated with PCM (phase change material) for space cooling, Energy, 68 (2014) 658-666. [link] 6. Dongliang Zhao, Gang Tan, A review of thermoelectric cooling: materials, modeling and applications, Applied Thermal Engineering, 66 (2014) 15-24. (ESI高被引论文，Web of Science被引306次). [link] 5. D.L. Zhao, Y. Li, Y.J. Dai, R.Z. Wang, Optimal study of a solar air heating system with pebble bed energy storage, Energy Conversion and Management, 52 (2011) 2392 – 2400. [link] 4. 夏佰林，赵东亮，代彦军，李勇，蛇形流道太阳能平板空气集热器集热性能研究，太阳能学报，2012, 09: 1560-1564. 3. 赵东亮，代彦军，李勇，空气-水复合平板型太阳能集热器，可再生能源，2011, 03: 108-111. 2. 夏佰林，赵东亮，代彦军，李勇，扰流板型太阳能平板空气集热器集热性能，上海交通大学学报，2011, 06: 870-874. 1. 赵东亮，李勇，代彦军，季节性蓄热太阳能集中供热系统，太阳能，2011, 03: 26-31.