赵长颖 教授
所在系所工程热物理研究所
办公电话
通讯地址上海交大机械与动力工程学院A楼417
电子邮件changying.zhao@sjtu.edu.cn
个人主页暂无


教育背景 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 2014 - 今， 上海交通大学 工程热物理研究所 所长
2012 - 今, 上海交通大学机械与动力工程学院， 讲席教授( Chair Professor)
2011- 2012, 上海交通大学机械与动力工程学院 教授，博导，****
2007–2011， 英国华威大学（University of Warwick）工学院 副教授
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”****。
2003-2004, 英国布鲁内尓大学 讲师
1998–2000, 香港理工大学机械工程系博士后研究员 (Postdoctoral Research Fellow)
1997–1998, 香港科技大学机械工程系博士后(Research Associate)

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. 2019-2022，军委科技委颠覆性创新项目， ******研究， 负责人。
3. 2020-2023，上海市重点基础研究项目，超材料热辐射器件研究， 负责人。
4. 2018-2021，上海市重点基础研究项目（物理前沿类）, 深亚波长人工带隙结构近远场调控机理研究，负责人。
5. 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。
6. 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。
7. 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。
8. 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。
9. 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。
10. 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。
11. 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。
12．2004-2007，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。
13. 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。
14．2005-2009，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 发表论文近200篇，以第一作者或通讯作者所发论文被SCI他引5000余次，Google scholar 引用近1万次，近期代表性论文有：
Y H Kan, C Y Zhao, Sergey I. Bozhevolnyi,et al., Metasurface-Enabled Generation of Circularly Polarized Single Photons, Advanced Materials, 32, **, 2020.
Y H Kan, C Y Zhao, Sergey I. Bozhevolnyi,et al., Directional off-Normal Photon Streaming from Hybrid PlasmonEmitter Coupled Metasurfaces, ACS Photonics, 7, 1111?1116, 2020.
Y H Kan, C Y Zhao, Enhancement and Manipulation of Near-Field Radiative Heat Transfer Using an Intermediate Modulator, Physical Review Applied, 13, 014069, 2020.
W. B. Zhang, C Y Zhao, Enhancing near-field heat transfer between composite structures through strongly coupled surface modes, Physical Review B, 100: 075425, 2019
X. Gu, Z. Fan, and C Y Zhao, Revisiting phonon-phonon scattering in single-layer graphene, Physical Review B, 100: 064306, 2019
Y H Kan, C Y Zhao, Near-field radiative heat transfer in three-body systems with periodic structures, Physical Review B, 99: 035433, 2019
B.Q. Xia, Z.H. Pan, J. Yan, C.Y. Zhao, Mesoscopic exploration on mass transfer in porous thermochemical heat storage materials, Int. J. Heat Mass Transfer, Vol.135, pp.52-61, 2019.
J. Yan, C.Y. Zhao, The effect of dehydration temperatures on the performance of the CaO/Ca(OH)2 thermochemical heat storage system, Energy, Vol.186, 115837, 2019.
B. X. Wang, C. Y. Zhao. Topological phonon polaritions in one-dimensional non-Hermitian nanoparticle chains, Physical Review B, 98:165435, 2018
B. X. Wang, C. Y. Zhao. Topological photonic states in one-dimensional dimerized ultracold atomic chains, Physical Review A, 98:023808, 2018
B. X. Wang, C. Y. Zhao. Achieving strongly negative scattering asymmetry factor in random media composed of dual-dipolar particles, Physical Review A, 97:023836, 2018
B. X. Wang, C. Y. Zhao. Structural correlations and dependent scattering mechanism on the radiative properties of random media, Journal of Quantitative Spectroscopy & Radiative Transfer 218:72-85, 2018
M. Q. Liu, C. Y. Zhao, and B. X. Wang. Active tuning of directional scattering by combining magneto-optical effects and multipolar interferences. Nanoscale, Volume 10(38), 2018, 18282-18290.
J. Chen, C. Y. Zhao, B. X. Wang. Near-field thermal radiative transfer in assembled spherical systems composed of core-shell nanoparticles, Journal of Quantitative Spectroscopy & Radiative Transfer, 219:304-312, 2018
B. X. Wang, C. Y. Zhao. Analysis of dependent scattering mechanism in hard-sphere Yukawa random media, Journal of Applied Physics, 123:223101, 2018
B. X. Wang, C. Y. Zhao. Effect of dependent scattering on light absorption in highly scattering random media, International Journal of Heat & Mass Transfer, 125:1069-1078, 2018.
M. Q. Liu, C. Y. Zhao, and B. X. Wang, Polarization management based on dipolar interferences and lattice couplings, Opt. Express, Volume 26, 2018, Pages 7235-7252.
Kan Y H , Zhao C Y, Zhang Z. M, Compact mid-infrared broadband absorber based on hBN/metal metasurface, Int. J. of Thermal Sciences, Vol. 130, 2018, pp.192-199.
Chen X W, Zhao C Y, Wang B X., Microstructural effect on radiative scattering coefficient and asymmetry factor of anisotropic thermal barrier coatings, Journal of Quantitative Spectroscopy and Radiative Transfer, Volume 210, 2018, Pages 116-126.
Wang, B. X., Zhao C Y, Effect of dependent scattering on light absorption in highly scattering random media, Int. J. Heat and Mass Transfer, Vol.125, 2018, pp.1069-1078.
Huang, T. C., Wang, B. X., Zhao, C Y, Negative refraction in metamaterials based on dielectric spherical particles, Journal of Quantitative Spectroscopy and Radiative Transfer, Volume 214, 2018, pp. 82-93.
M. Q. Liu, C. Y. Zhao, B. X. Wang, and Xing Fang, Role of short-range order in manipulating light absorption in disordered media, J. Opt. Soc. Am. B, Volume 35, 2018, Pages 504-513.
Wang B X, Zhao C Y, Kan Y H, et al., Design of metasurface polarizers based on two-dimensional cold atomic arrays, Optics Express, Volume 25, Issue 16, 2017, Pages 18760-18773.
Yan J, Zhao C Y, Pan Z H., The effect of CO2 on Ca (OH) 2 and Mg (OH) 2 thermochemical heat storage systems, Energy, Volume 124, 2017, Pages 114-123.
Wu, R., Zhao, C.Y., Tsotsas, E., Kharaghani, A. Convective drying in thin hydrophobic porous media, International Journal of Heat and Mass Transfer, Volume 112, 2017, Pages 630-642.
Kan, Y.H., Zhao, C.Y., Fang, X., Wang, B.X. Designing ultrabroadband absorbers based on Bloch theorem and optical topological transition. Optics Letters, Volume 42, Issue 10, 2017, Pages 1879-1882.
Fang, X., Zhao, C.Y., Unified analyses and optimization for achieving perfect absorption of layered absorbers with ultrathin films, International Journal of Heat and Mass Transfer, Volume 111, 2017, Pages 1098-1106.
Fang, X., Zhao, C.Y., Grading absorption and enhancement in silicon nanowire arrays with thin blocks, Journal of Quantitative Spectroscopy and Radiative Transfer, Volume 194, 2017, Pages 7-16.
Gao J D, Zhao C Y, Wang B X., Effect of metal particles in cermets on spectral selectivity, Journal of Applied Physics, Volume 121, Issue 11, 2017, Pages 113105.
Pan, Z.H., Zhao, C.Y. Prediction of the effective thermal conductivity of packed bed with micro-particles for thermochemical heat storage. Science Bulletin, Volume 62, Issue 4, 2017, Pages 256-265.
Pan, Z.H., Zhao, C.Y. Gas–solid thermochemical heat storage reactors for high-temperature applications. Energy, Volume 130, 2017, Pages 155-173.
Chen, Y.Y., Zhao, C.Y. Thermophysical properties of Ca(NO)-NaNO-KNO mixtures for heat transfer and thermal storage, Solar Energy, Volume 146, 2017, Pages 172-179.
Wang, B.X., Zhao, C.Y. Effect of anisotropy on thermal radiation transport in porous ceramics, International Journal of Thermal Sciences, Volume 111, January 2017, Pages 301-309.
Xu H J, Zhao C Y. Thermal performance of cascaded thermal storage with phase-change materials (PCMs). Part I: Steady cases[J]. International Journal of Heat and Mass Transfer, Volume 106, 2017, Pages 932-944.
Xu H J, Zhao C Y. Thermal performance of cascaded thermal storage with phase-change materials (PCMs). Part II: Unsteady cases[J]. International Journal of Heat and Mass Transfer, Volume 106, 2017, Pages 945-957.
Yan, J., Zhao, C.Y. Experimental study of CaO/Ca(OH)2 in a fixed-bed reactor for thermochemical heat storage. Applied Energy. Volume 175, May 2016, Pages 277-84.
Zhao, C. Y., Ji, YN, Xu, Z. G. Investigation of the Ca(NO3)(2)-NaNO3 mixture for latent heat storage. Solar Energy Materials and Solar Cells, 2015, Volume: 140, pp. 281-288.
Yang, G., Zhao, C.Y. A comparative experimental study on radiative properties of EB-PVD and air plasma sprayed thermal barrier coatings. ASME Journal of Heat Transfer, Volume 137, Issue 9, 1 September 2015.
Fang, X., Lou, MH, Bao, H, Zhao, C.Y. Thin films with disordered nanohole patterns for solar radiation absorbers. Journal of Quantitative Spectroscopy & Radiative Transfer, 2015, Volume: 158, pp. 145-153.
Pan Z.H., Zhao, C.Y. Dehydration/hydration of MgO/H2O chemical thermal storage system. Energy, 2015, Volume: 82 Pages: 611-618.
Xu, H.J., Zhao, C.Y., Thermodynamic analysis and optimization of cascaded latent heat storage system for energy efficient utilization, Energy, Volume 90, Part 2, October 2015, pp.1662-1673.
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.
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, Volume 73, 2014, Pages 59–66, 2014 .
H.P. Shen, C.Y.Zhao,Analytical considerations of light transport in nanostructured homogeneous/inhomogeneous thin films,Thin Solid Films, 2013, 542:204-209.
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.
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.
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.
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.
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.
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.
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.
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.
Y. Tian, C Y Zhao, A numerical investigation of heat transfer in phase change materials (PCMs) embedded in porous metals, Energy 36 (2011) 5539e5546.
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.
Z G Wu, C Y Zhao, Experimental investigations of porous materials in high temperature thermal energy storage systems, Solar Energy 85 (2011) 1371–1380 .
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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，阚银辉，宽谱吸收器，发明专利授权号：8.3
赵长颖，夏博谦，闫君，具有优化渗透性的热化学储热成型颗粒及其制备方法，2018，发明专利授权号：0.X
赵长颖，潘智豪，闫君，传热增强型化学蓄热装置及应用该蓄热装置的蓄热系统，2016，发明专利授权号：0.4
鲍华，闫晨，赵长颖，王博翔，一种辐射制冷双层纳米涂层及其制备方法，2015，发明专利授权号：4.4
徐治国，赵长颖，梯度金属泡沫散热装置，2015，发明专利授权号：2.8
徐治国，赵长颖，基于金属泡沫的汽车尾气净化器，2014，发明专利授权号：6.1
徐治国，赵长颖，梯密度通孔金属泡沫及其简易制备方法，2014，发明专利授权号：1.1
徐会金，赵长颖，一种采用金属泡沫的梯级相变蓄热放热一体化装置，2014，发明专利授权号：6.8
徐会金，赵长颖，徐治国，一种高速射流装置的环状金属泡沫直孔喷嘴，2014，发明专利授权号：3.9
徐会金，赵长颖，徐治国，一种以金属泡沫均匀分配流体流量的多通道结构，2014，发明专利授权号：2.6
徐会金，巩亮，黄善波，罗璇，徐明海，赵长颖，一种利用LNG冷能的多层式平板冷凝器，2014，发明专利授权号：2.4
徐治国，赵长颖，王美琴，金属纤维毡的制备方法，2014，发明专利授权号：5.3
徐治国，赵长颖，王美琴，梯密度通孔金属泡沫及其制备方法，2013，发明专利授权号：7.9
徐治国，赵长颖，预混预热式梯密度通孔金属泡沫燃烧器，2013，发明专利授权号：0.X
徐治国，赵长颖，王美琴，具有渐变形貌特征的通孔金属泡沫热管换热装置，2013，发明专利授权号：9.9
徐治国，赵长颖，王美琴，具有孔密度渐变的通孔金属泡沫热管换热装置，2013，发明专利授权号：6.2
徐治国，赵长颖，王美琴，基于冲击射流的高孔密度通孔金属泡沫电子器件散热装置，2013，发明专利授权号：6.3
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：ZL8.4
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：ZL7.4

学术兼职 中国工程热物理学会理事，传热传质委员会副主任
亚洲热科学联合会常务理事
中国化工学会首届储能专委会委员， 2014-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 “第六届国际微纳尺度传热传质大会”最佳论文奖，2019
（ Best Paper Award，The 6th ASME Micro/Nanoscale Heat & Mass Transfer International Conference，2019）
上海交大机动学院首届育栋梁名师，2019.
上海交通大学教书育人奖一等奖,2018
上海交通大学优秀教师奖-特等奖,2016
全国宝钢优秀教师奖，2016
中国高被引****，2014-今 （Most Cited Chinese Researchers）
“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
上海交大****
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”****，2005
教育部新世纪优秀人才，2004