个人简介
教育背景
1993-1997西安交通大学博士
1990-1993浙江大学硕士
1984-1988西安交通大学学士
工作经历
2004 – present 上海交通大学 教授
1999 – 2004 上海交通大学 副教授
2003-2004 University of Michigan,访问学者
1988-1990 新疆电力学校 教师
出访及挂职经历
2003-2004 密西根大学, 访问学者
科研项目
非吸附平衡的吸附制冷机理研究 (自然科学基金, 2002-2004), 负责
微型压缩制冷循环机理研究 (国家自然科学基金, 2006-2008), 负责
微型振膜压缩机运行机理研究 (国家自然科学基金, 2010-2012),负责
乏燃料池非能动冷却系统分离型热管单体方案优化(来自重大专项,2012-2013)
微型振膜压缩机经压电、静电复合驱动的运行研究(国家自然科学基金,2016-2019)负责
乏燃料池非能动长期冷却预实验(来自重大专项,2017-2018)
低温流体换热流动的理论与实验研究(来自基础研究973,2016-2019)
自然对流余热排出强化(来自重大专项,2018-2020)
低温流体快速冷却及低温输运管道预冷(联合实验室,2020-2021)
高热流泵驱两相流稳定性研究(来自重点基础研究,2021-2024)
教学工作
测试原理与技术 本科生,48学时, score 3
工程热力学(1),本科生,48学时, score 3
软件版权登记及专利
一种具有与蒸发器耦合的分离型热管回路的制冷循环系统,专利授权号: 2012100654995
一种动力电池包换热板,专利号:ZL201610428950.3
一种复合静电和压电驱动的微型振膜压缩机,201711421031.4
一种含有液体传动的复合压电和静电驱动振膜驱动器,201711421042.2
一种具有均温结构的曲面散热水箱,202010692017.3
一种曲面水箱散热肋板装配结构,202010692325.6
荣誉奖励
2006 教育部新世纪人才
近期论文
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[1] Kuang Yiwu.;Han Fei.;Sun Lijie.;Zhuan Rui.;Wang Wen. Saturated hydrogen nucleate flow boiling heat transfer coefficients study based on artificial neural network. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2021
[2] Kuang Yiwu.;Wang Wen. Modeling and numerical investigation on the effects of filling ratio in a large separate heat pipe loop. International Journal of Energy Research, 2021
[3] Kuang,Yiwu;Han,Fei;Sun,Lijie;Zhuan,Rui;Wang,Wen. Modeling and numerical investigation of hydrogen nucleate flow boiling heat transfer, International Journal of Hydrogen Energy, 2021
[4] Kuang,Yiwu;Yi,Chongchong;Wang,Wen. Heat transfer performance analysis of a large-scale separate heat pipe with a built-in tube. APPLIED THERMAL ENGINEERING, 2020,
[5] Kuang,Yiwu;Wang,Wen;Miao,Jianyin;Zhang,Hongxing;Yu,Xin'gang. Non-linear analysis of nitrogen pressure drop instability in micro/mini-channels. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER. 2020
[6] Kuang,Yiwu;Wang,Wen;Miao,Jianyin;Yu,Xingang;Zhang,Hongxing. Pressure drop instability analysis in mini-channel evaporators under different magnitudes of gravity. INTERNATIONAL JOURNAL OF THERMAL SCIENCES. 2020
[7] Wang,Bojie;Wang,Wen;Qi,Chao;Kuang,Yiwu;Xu,Jiawei. Simulation of performance of intermediate fluid vaporizer under wide operation conditions. FRONTIERS IN ENERGY. 2020
[8] Qi,Chao;Chen,Xiting;Wang,Wen;Miao,Jianyin;Zhang,Hongxing. Experiment and simulation on downward flow condensation of nitrogen in vertical tubes. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER. 2020,
[9] Chen,Xiting;Qi,Chao;Wang,Wen;Miao,Jianyin;Zhang,Hongxing. Heat transfer limit resulting from heat leak in a cryogenic loop heat pipe. Applied Thermal Engineering. 2020
[10]Y.W. Kuang, C.C Yi, W. Wang. Modelling and Simulation of Large-scale Separated Heat Pipe with low heat Flux for Spent Fuel Pool Cooling, Applied Thermal Engineering, Vol.147, (2019), 747-755
[11]Chao Qi, Chongchong Yi, Bojie Wang, Wen Wang, Jiawei Xu. Thermal performance analysisand the operation method with low temperature seawater of super open rack vaporizer forliquefied natural gas. Applied Thermal Engineering, 150(2019), 61-69.
[12]Chao Qi, Xiting Chen, Wen Wang, Jianyin Miao, Hongxing Zhang. Experimental investigation on flow condensation heat transfer and pressure drop of nitrogen in horizontal tubes. International Journal of Heat and Mass Transfer, 132(2019), 985-996.
[13]Yiwu Kuang, Chongchong Yi, Wen Wang. Modeling and simulation of large-scale separated heat pipe with low heat flux for spent fuel pool cooling [J]. Applied Thermal Engineering, 2018, 147(25):747-755.
[14]Kun Lai, Wen Wang, ChongchongYi, et al. The study of passive cooling system assisted with separate heat pipe for decay heat removal in spent fuel pool [J]. Annals of Nuclear Energy, 2018, 111:523-535.
[15] Jian Wang, Ying Zhan, Wen Wang, Rongshun Wang. Optimization and performance of highly efficient hydrogen getter applied in high vacuum multilayer insulation cryogenic tank. Vacuum, V 149, 2018, P 87-92
[16] Lai K, Wang W, Giles H. Experimental study on the shading performance of a window integrated with grid shading configuration[J]. Science and Technology for the Built Environment, 2017: 1-11.
[17] Hu Y, Liang X, Wang W. A theoretical solution of resonant circular diaphragm-type piezoactuators with added mass loads [J]. Sensors and Actuators A: Physical, 2017, 258: 74-87.
[18] Hu Y, Xu X, Wang W. A new cavity profile for a diaphragm compressor used in hydrogen fueling stations [J]. International Journal of Hydrogen Energy, 2017,42(38): 24458-69.
[19] Hu Y, Liang X, Wang W. Deflection of circular diaphragm-type piezoactuators coupling with gas compression in micropumps[J]. Microsystem Technologies, 2017: 1-13.
[20] Hu Y, You H, Wang W. Non-linear deflection of a circular diaphragm-type piezoactuator under loads of voltage and pressure[J]. Sensors and Actuators A: Physical,2017:1-10.
[21] Y. Kuang, W. Wang, J. Miao, X.g. Yu, R. Zhuan, Theoretical analysis and modeling of flow instability in a mini-channel evaporator, International Journal of Heat and Mass Transfer, 2017,104:149-162.
[22] Y.W. Kuang, W. Wang, J.Y. Miao, X.G. Yu, H.X. Zhang, R. Zhuan, Flow boiling of ammonia and flow instabilities in mini-channels, Applied Thermal Engineering, 2017,113: 831-842.
[23] Zhang Xinglei, Wang Wen, He Haixia, et al. Optimization of the air-cooled supercapacitor module compartment for an electric bus. Applied Thermal Engineering, 2017, 112:1297-1304
[24] Qi Chao, Wang Wen, Wang Bojie, et al. Performance analysis of submerged combustion vaporizer. Journal of Natural Gas Science and Engineering, 2016, 31:313-319.
[25] Zhang Xinglei, Wang Wen, Lu Jun, et al. Reversible heat of electric double-layer capacitors during galvanostatic charging and discharging cycles[J]. Thermochimica Acta, 2016, 636:1-10.
[26]Xiu-Wei Yin, Wen Wang, Vikas Patnaik, Jin-Sheng Zhou, Xiang-Chao Huang. Evaluation of microchannel condenser characteristics by numerical simulation. Int J of Refri, V 54, 2015, 126-141
[27]Y.W. Kuang, Wen Wang, Rui Zhuan et al, Simulation of boiling flow in evaporator of separate type heat pipe with low heat flux. Annals of Nuclear Energy 75 (2015) 158–167
[28] Zhang, Y. L., and W. Wang, Friction Loss and Wear in a Meso Scale Wankel Compressor, Journal of mechanical design, Transaction of ASME, V135, 081104. 2013
[29] Rui Zhuan, Wen Wang. Boiling heat transfer characteristics in a microchannel array heat sink with low mass flow rate[J]. Applied Thermal Engineering, 2013, V 51(1–2): 65-74
[30] Yu Zhang,Wen Wang,Xiaolin Zhao,Guifu Ding. Effect of flexible microvalves on the output performance of electrostatically actuated micropumps [J]. Proceedings of the Institution of Mechanical Engineers; Part C; Journal of Mechanical Engineering Science. 2012, (23):1-11.
[31] Y Zhang, W Wang. Using overflow in a swash plate compressor for automotive air conditioning system [J]. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy. 2012, (226): 564-579.
[32] Y L Zhang, W Wang. Efficiency enhancement in a meso-Wankel compressor with overflow[J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. 2012 (226): 1550-1567.
[33] Yilin Zhang, Wen Wang. Factors affecting the cylinder displacement of a Wankel compressor in a micro-cooling system[J]. HVAC&R Research. 2012, 18(3): 366–376.
[34] Rui Zhuan, Wen Wang, Flow pattern of boiling in micro-channel by numerical simulation [J], International Journal of Heat and Mass Transfer. 2012, (55):1741-1753.
[35] Zhang, Y. L. and Wang, W. Effects of leakage and friction on miniaturization of Wankel compressor. Frontiers of Energy and Power Engineering in China, 2011,5 (1),83-92.
[36] Li Yang, Wen Wang. The heat transfer performance of horizontal tube bundles in large falling film evaporators International Journal of Refrigeration, 34( 1), 2011, 303-316
[37] Rui Zhuan, Wen Wang. Simulation of subcooled flow boiling in a micro-channel International Journal of Refrigeration, 34( 3), 2011, 781-795
[38] Yu Zhang, Wen Wang, Analytical Model of Electrostatic Actuators for Micro Gas Pumps, Microsystem technologies, 2011, 17: 1683-1696
[39] R. Zhuan, W. Wang. Simulation on nucleate boiling in micro-channel. International Journal of Heat and Mass Transfer. 2010, V53(1-3): 502-512.
[40] M.L. Zheng, W. Wang,Seasonal energy utilization optimization in an enterprise. Energy, 2010, V35(9): 3932- 3940
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