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赵长颖    
教授    
    
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021-34204541
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上海交大机械与动力工程学院A楼417
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教育背景
时间
毕业院校
学历
2000-2003
剑桥大学
博士
1992-1996
西安交通大学 获博士学位
硕士
1988-1992
西安交通大学
学士
工作经历
1997–1998, 香港科技大学机械工程系博士后(Research Associate)
1998–2000, 香港理工大学机械工程系博士后研究员 (Postdoctoral Research Fellow)
2003-2004,  英国布鲁内尓大学 讲师
2004–2007, 西安交通大学能源与动力工程学院 教授,博导,“腾飞人才”特聘教授。
2007–2011, 英国华威大学(University of Warwick)工学院 副教授
2011- 2012,  上海交通大学机械与动力工程学院 教授,博导,特聘教授
2012 - 今,  上海交通大学机械与动力工程学院, 讲席教授( Chair Professor) 
2014 - 今, 上海交通大学 工程热物理研究所 所长  

出访及挂职经历
研究方向
(1) 多孔介质相变传热;
(2) 微纳尺度热辐射;
(3) 高效热能储存;
(4) 传热强化与电子器件冷却
科研项目
获科研项目多项,近期代表性科研项目有:
1. 2017-2021, 国家自然科学基金重点项目,微纳多孔介质中相干散射和各向异性热辐射机理及其调控机制,负责人。
2. 2016-2019, 上海市重点基础研究项目,宽谱超材料发射-吸收器的微纳结构研究,负责人。
3. 2013-2017, 国家重点基础研究项目(973课题),“多形态余热高效储存新原理和新技术研究”,负责人。
4. 2015-2018,国家自然科学基金项目, 梯度涂层内的微纳尺度传热机理研究,负责人。
5. 2012-2016, 国家自然科学基金项目, 热障涂层微观结构热辐射特性研究,负责人。
6. 2011-2012, 国家自然科学基金项目, 金属泡沫催化反应的复杂流动传热特性研究,负责人。
7. 2011-2013, 上海"东方学者" 特聘教授支持计划,“相变蓄热中的热物理问题”, 负责人。
8. 2008-2012,英国自然科学基金(EPSRC)重点基金项目,“Thermal Conductivity Enhancement of High-Temperature Thermal Energy Stores For Use with Solar thermal Power Plants”, 负责人。
9. 2007-2010,英国自然科学基金(EPSRC)和Buro Happold联合项目,“Thermofluids behaviours in Energy storage systems”,负责人。
10.2004-2007,英国自然科学基金(EPSRC)项目,“Two-Phase Flow and Heat Transfer in Ultra-Light Metal Foams”, 负责人。
11. 2006-2008,国家自然科学基金项目,“金属泡沫中的流动沸腾研究”, 负责人。
12.2005-2009,国家重点基础研究项目(973课题),“金属泡沫中的传热及阻力特性研究”,负责人。
代表性论文专著
发表论文100余篇,论文被SCI他引2千余次,近期代表性论文有:
[1] X.Fang, C.Y. Zhao, H. Bao,Radiative behaviors of crystalline silicon nanowire and nanohole arrays for photovoltaic applications, Journal of Quantitative Spectroscopy & Radiative Transfer,2014, 133:pp.579-588.
[2] B.J. Zhang, B.X. Wang, C.Y. Zhao, “Microstructural effect on the radiative properties of YSZ thermal barrier coatings (TBCs)”,International Journal of Heat and Mass Transfer, 73 59–66, 2014
[3] H.P. Shen, C.Y.Zhao,Analytical considerations of light transport in nanostructured homogeneous/inhomogeneous thin films,Thin Solid Films, 2013, 542:204-209.
[4] G. Yang, C.Y. Zhao, B.X. Wang,Experimental study on radiative properties of air plasma sprayed thermal barrier coatings,International Journal of Heat and Mass Transfer, 2013, 66:695-698.
[5] B.J. Zhang, C. Y. Zhao. Geometric Optics Approximation with Considering Interference for Reflection from Random Rough Surface,Journal of Thermophysics and Heat Transfer, 2013, 27:458-464.
[6] X.X. Han, Y. Tian, C.Y. Zhao. An effectiveness study of enhanced heat transfer in phase change materials (PCMs). International Journal of Heat and Mass Transfer, 2013,60:459-468.
[7] D. Shen, C.Y. Zhao. Thermal analysis of exothermic process in a magnesium hydride reactor with porous metals Chemical Engineering Science, 2013, 98:273-281.
[8] Z G Xu, C Y Zhao ,Pool boiling heat transfer of trapezoid-shaped copper-foam fins with high pore densities ,Experimental Thermal and Fluid Science,2014,52, pp 128-138.
[9] Y. Tian, C.Y. Zhao. Thermal and exergetic analysis of Metal Foam-enhanced Cascaded Thermal Energy Storage (MF-CTES),International Journal of Heat and Mass Transfer, 2013, 58:86-96.
[10] C Y Zhao, 2012, Review on thermal transport in high porosity cellular metal foams with open cells, Int. J. Heat and Mass Transfer, Vol.55, pp.3618-2632.
[11] J Yang, C Y Zhao, Modelling the effect of binary phase composition on inward solidification of a particle, Int. J. Heat and Mass Transfer,2012, Vol.55, pp.6766-6774.
[12] Y. Tian, C Y Zhao, A numerical investigation of heat transfer in phase change materials (PCMs) embedded in porous metals, Energy 36 (2011) 5539e5546.
[13] C Y Zhao, G H Zhang, Review on microencapsulated phase change materials (MEPCMs): Fabrication, characterization and applications, Renewable and Sustainable Energy Reviews 15 (2011) 3813– 3832.
[14] Z G Wu, C Y Zhao, Experimental investigations of porous materials in high temperature thermal energy storage systems, Solar Energy 85 (2011) 1371–1380
[15] C Y Zhao, Z G Wu, Thermal property characterization of a low melting-temperature ternary nitrate salt mixture for thermal energy storage systems, Solar Energy Materials & Solar Cells 95 (2011) 3341–3346.
[16] F. Pitie, C Y Zhao, Thermo-mechanical analysis of ceramic encapsulated phase-change-material (PCM) particles, Energy and Environmental Science,Vol4, 2010, pp.2117-2124.
[17] C Y Zhao, Z G Wu, 2010, “Heat Transfer Enhancement of High-Temperature Thermal Energy Storage Using Porous Materials”, Solar Energy Materials and Solar Cells, Vol.95, pp.636-643.
[18] C Y Zhao, L N Dai,G H Tang, Z G Qu, Z Y Li, 2010, “Numerical Study of Natural Convection in Porous Media (Metals) Using Lattice Boltzmann Method (LBM)”, Int. J. of Heat and Fluid Flow, Vol.31, pp.925-934.
[19] C Y Zhao, W. Lu and Y Tian, 2010, “Heat transfer enhancement for thermal energy storage using metal foams embedded within phase change materials (PCMs)”, Solar Energy, Vol. 84 (8), pp. 1402-1412.
[20] C Y Zhao, W Lu and S A Tassou, 2009, “Flow boiling heat transfer in horizontal metal foam tubes”, ASME Journal of Heat Transfer, Vol. 131.
[21] C Y Zhao, T J Lu, S A Tassou, 2008, “Analytical Considerations of Thermal Radiation in Cellular Metal Foams with Open Cells", International Journal of Heat and Mass Transfer, Vol. 51, pp. 929-940.
[22] W. Lu, C. Y. Zhao and S. A. Tassou, 2006, “Thermal analysis on metal-foam filled heat exchangers, Part I: metal-foam filled pipes”, Int. J. Heat and Mass Transfer, Vol. 49, pp. 2751-2761.
[23] C. Y. Zhao, W. Lu and S. A. Tassou, 2006, “Thermal analysis on metal-foam filled heat exchangers, Part II: tube heat exchangers”, Int. J. Heat and Mass Transfer, Vol. 49, pp. 2762-2770.
[24] C. Y. Zhao, T. J. Lu and H. P. Hodson, 2005, “Natural Convection in Metal Foams with Open Cells”, Int. J. Heat and Mass Transfer, Vol. 48, pp. 2452 – 2463.
[25] C. Y. Zhao, T. J. Lu and H. P. Hodson, 2004, “Thermal Radiation in Metal Foams with Open Cells”, Int. J. Heat and Mass Transfer, Vol. 47, pp.2927-2939.
[26] C. Y. Zhao, T. J. Lu, H. P. Hodson and J. D. Jackson, 2004, “The Temperature Dependence of Effective Thermal Conductivity of Open-Celled Steel Alloy Foams”, Materials Science and Engineering: A, Vol. 367, pp. 123-131.
[27] C. Y. Zhao, T. Kim, T. J. Lu and H. P. Hodson, 2004, “Thermal Transport in High Porosity Cellular Metal Foams”, AIAA J. Thermophysics and Heat Transfer, Vol. 18, pp. 309 - 317.
[28] C. Y. Zhao and T. J. Lu, 2002, "Analysis of Microchannel Heat Sinks for Electronics Cooling", Int. J. Heat and Mass Transfer, Vol. 45, pp. 4857-4869.
[29] C. Y. Zhao, R. M. C. So and T. B. Gatski, 2001, “Turbulence Modeling Effects on the prediction of the Equilibrium States of Turbulent Buoyant Shear Flows”, 2001, Theoretical and Computational Fluid Dynamics, Vol. 14, pp. 399-422.
[30] R. M. C. So, C. Y. Zhao and T. B. Gatski, 2000, “Predicting Buoyant Turbulent Shear Flows Using Anisotropic Dissipation Rate Models”, Flow, Turbulence and Combustion, Vol. 63, pp. 193-221.
教学工作
传热学 (本科生)
高等传热学(研究生) 
软件版权登记及专利
赵长颖,杜艳平,李增耀, 一种金属泡沫重整反应器,2006,发明专利授权号:ZL200610104598.4 
赵长颖, 杜艳平, 李增耀,一种套管式金属泡沫换热器,2006,发明专利授权号:ZL200610104597.4
学术兼职
亚洲热科学联合会执行理事(Executive Board, 2015) 
国家自然科学奖、中组部千人计划、科技部创新领军人才(万人计划)、教育部长江学者等评审专家
中国化工学会首届储能专委会委员, 2014-今
中国工程热物理学会传热传质专委会委员,2012-今
EPSRC Peer Review College member, 2006-今
(英国自然科学基金评审专家委员会委员)
FHEA, Fellow of Higher Education Academy, UK, 2008-今.
(英国高等教育理事会理事) 
国际热蓄能专家组成员,2009-今
西安交通大学兼职教授,2008-今
Editor,“Focus on Porous Media Research"
数十次担任国际会议分会主席或做特邀报告
荣誉奖励
上海交通大学优秀教师奖-特等奖,2016
中国高被引学者,2014,2015 (Most Cited Chinese Researchers,2014,2015)  
“第四届国际微纳尺度传热传质大会”最佳论文奖,2013
( Best Paper Award,The 4th ASME Micro/Nanoscale Heat & Mass Transfer International Conference,2013)
 上海交通大学优秀教师奖(2013)
 中国百篇最具影响国际学术论文获得者(2013)
 上海交大"致远" 讲席教授( Chair Professor) , 2012 
 国家(中组部)"千人计划"特聘专家
 首批上海"千人计划"特聘专家
 上海交大特聘教授
 上海“东方学者”特聘教授
 Warwick RDF Strategic Award
(英国华威创新奖励基金获得者)
 陕西省自然科学一等奖, 2006
 西安交通大学“腾飞人才”特聘教授,2005
 教育部新世纪优秀人才,2004
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