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纪念吴仲华先生诞辰100周年
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王建华
( 2017-06-09 )

王建华

一、联系方式

单位:中国科学技术大学工程科学学院、热科学和能源工程系

地址:合肥市金寨路96

邮编:230027

电话:055163600945

传真:055163606459

电子邮件:jhwang@ustc.edu.cn


二、学历及学位

78.02-82.02 合肥工业大学,精密机械工程系,工学学士

83.09-86.07 哈尔滨工业大学,动力工程系,工学硕士

98.02-02.12 德国斯图加特大学,能源工程系,热流体机械研究所,工学博士(Dr.-Ing.


三、主要海外留学及工作经历

92.02-93.08德国宇航院哥庭根流体力学研究所,从事实验流体力学先进测量技术研究,中科院访问学者

96.06-96.12香港城市大学,从事数学模型和数值计算方法研究,资深助理研究员(SR

98.04-02.12德国斯图加特大学,热流体机械研究所,从事强化冷却技术实验研究,全职研究伙伴 (Wissenschaftliche Mitarbeiterin BatA2)


四、近年来研究方向

1 )多孔介质传热传质过程的数学模型、数值模拟方法及实验技术研究

2 )空天飞行器主动热防护技术及相关材料/结构设计问题研究

3 )强化冷却结构多场耦合问题实验技术及数值模拟方法研究

4 )现代化光学诊断及数字图像处理技术在热物理量测量方面的应用

5 )新能源、洁净能源基础理论及应用技术研究


五、教学经历

1)基础流体力学

2)传热及流动过程的数值计算方法

3)气体动力学

4)热过程的数值模拟

5)传热传质学(双语课)


六、主要社会工作

《航空动力学报》编辑委员会成员

Committee Member of ASME/HTD Gas Turbine Heat Transfer (K-14)

Committee Member of ASME/IGTI Heat Transfer


七、公开发表的代表性论文   

主要杂志论文

[1] Jianhua Wang, Lianjin Zhao, Xiaochun Wang, Jie Ma, Jia Lin, An Experimental Investigation on Transpiration Cooling of Wedge Shaped Nose Cone with Liquid Coolant, International Journal of Heat and Mass Transfer, 75 (2014) 442–449.

[2]Jianhua Wang, Zhixin Feng, Qian Zhang, Xiangyu Wu, Shiyan Ma, Experimental Investigations on Overall Cooling Effect of Ribbed Channel with Air Bleeds, International Journal of Heat and Mass Transfer, 55 (2012) 4800–4807.

[3] Liu H. C., Wang J. H.*, Numerical Investigation on Synthetical Performances of Fluid Flow and Heat Transfer of Semiattached Rib-channels, International Journal of Heat and Mass Transfer, 54 (2011) 575–583.

[4] Shi J. X., Wang J. H.*, Inverse Problem of Transpiration Cooling for Estimating Wall Heat Flux by LTNE Model and CGM Method, International Journal of Heat and Mass Transfer, (2009)52: 2714-2720.

[5] Jin-Long Liu, Jian-Hua Wang*, Thermodynamic analysis of a novel tri-generation system based on compressed air energy storage and pneumatic motor, Energy, 91 (2015) 420-429.

[6] Prasert Prapamonthon, Huazhao Xu, Wenshuo Yang, Jianhua Wang*, Numerical Study of the Effects of Thermal Barrier Coating and Turbulence Intensity on Cooling Performances of a Nozzle Guide Vane, Energies 2017, 10, 362.

[7] Zhaoqing Ke, Jianhua Wang*, Numerical investigations of pulsed film cooling on an entire turbine vane, Applied Thermal Engineering, 87 (2015) 117-126.

[8] Zhaoqing Ke, Jianhua Wang*, Conjugate heat transfer simulations of pulsed film cooling on an entire turbine vane, Applied Thermal Engineering, 109 (2016) 600–609.

[9] Lin Shen, Jianhua Wang*, Wenjie Dong, Jian Pu, Jinlong Peng, Dejun Qu, Lianzhong Chen, An experimental investigation on transpiration cooling with phase change under supersonic condition, Applied Thermal Engineering 105 (2016) 549–556.

[10]Fei He, Jianhua Wang*, Lucheng Xu, Xiaochun Wang, Modeling and Simulation of Transpiration Cooling with Phase Change, Applied Thermal Engineering, 58 (2013) 173-180.

[11] Fei He, Jianhua Wang*, Numerical Investigation on Critical Heat Flux and Coolant Volume Required for Transpiration Cooling with Phase Change, Energy Conversion and Management, 80 (2014) 591–597.

[12] Jin-Long Liu, Jian-Hua Wang*, A comparative research of two adiabatic compressed air energy storage systems, Energy Conversion and Management, 108 (2016) 566–578.

[13] Wenshuo Yang, Jian Pu, Jianhua Wang, The Combined Effects of an Upstream Ramp and Swirling Coolant Flow on Film Cooling Characteristics, ASME Journal of Turbomachinery, Nov. 2016, Vol. 138 / 111008.

[14] Wang J. H., Shi J. X., Discussion of Boundary Conditions of Transpiration Problems Using LTNE Model, ASME Journal of Heat Transfer, Jan. 2008,Vol.130, No.1.

[15] Wang J. H., Wang H. N., A Discussion of Transpiration Cooling Problems Through an Analytical Solution of Local Thermal Non-Equilibrium Model, ASME Journal of Heat Transfer, Oct. 2006, Vol. 128, 1093-1098.

[16]Lianjin Zhao, Jianhua Wang*, Jie Ma, Jia Lin, Jinlong Peng, Dejun Qu, Lianzhong Chen,An Experimental Investigation on Transpiration Cooling under Supersonic Condition using a Nose Cone Model,International Journal of Thermal Sciences 84 (2014) 207-213.

[17] Shi J. X., Wang J. H., Inverse problem of estimating space and time dependent hot surface heat flux in transient transpiration cooling process, International Journal of Thermal Sciences, (2009)48:1398-1404.

[18] Shi J. X., Wang J. H.*, Optimized Structure of Two Layered Porous Media with Genetic Algorithm for Transpiration Cooling, International Journal of Thermal Sciences, (2008) 47:1595 -1601.

[19] Shi J. X., Wang, J. H.*, A Numerical Investigation on the Laminar Boundary Flow Layer with Transpiration Cooling, Transp. Porous Med., 2008. 9. DOI 10.1007/s11242-008-9279 -8.

[20] J. X. Shi , J. H. Wang*, A Numerical Investigation of Transpiration Cooling with Liquid Coolant Phase Change, Transp. Porous Med., (2011) 87:703–716, DOI 10.1007 /s11242- 010 -9710-9.

[21]Kuan Wei, Jianhua Wang*, Mao Mao, Model Discussion of Transpiration Cooling with Boiling, Transp. Porous Med., 25, April, 2012, DOI 10.1007/s11242-012-0006-0.

[22]Jian Pu, Zhao-Qing Ke, Jian-Hua Wang*, Hong-De You, Zhi-Neng Du, An Experimental Investigation on Fluid Flow Characteristics in a Real Coolant Channel of LP Turbine Blade with PIV Technique,Experimental Thermal and Fluid Science 45 (2013) 43–53.

[23]Jian Pu, Jun Yu, Jian-hua Wang*, Wen-shuo Yang, Zhi-qiang Zhang, Lei Wang,An experimental investigation of secondary flow characteristics in a linear turbine cascade with upstream converging slot-holes using TR-PIV, Experimental Thermal and Fluid Science 59 (2014) 56–71.

[24]Jian Pu, Jian-hua Wang*, Shi-yan Ma, Xiang-yu Wu, An experimental investigation of geometric effect of upstream converging slot-hole on end-wall film cooling and secondary vortex characteristics, Experimental Thermal and Fluid Science 69 (2015) 58–72.

[25]Lin Jia, Lingjin Zhao, Wang J. H.*, Numerical Investigation on Aero- thermodynamic Characteristics of Wedge Shaped Nose Cone of Near Space Supersonic Flight, Applied Mechanics and Materials , Vols. 541-542 (2014) pp 608- 612.

[26]Lingjin Zhao, Lin Jia, Wang J. H.*, Jinlong Peng, Dejun Qu, Lianzhong Chen, An Experimental Investigation on Transpiration Cooling for Supersonic Vehicle Nose Cone using Porous Material, Applied Mechanics and Materials ,Vols. 541-542 (2014) pp 690-694.

[27] Wang J. H., Gan M., Detecting and Characterization of Penetrating Pores of Porous Materials, Materials Characterization, 58(2007)8-12.

[28] Wang J. H., Han X. S., Numerical Investigation of Transpiration and Ablation Cooling, Heat Mass Transfer, (2007)43:274-284.

[29] Wang J. H., Wang H. N., Sun J. G., Wang J., Numerical Simulation of Control Ablation by Transpiration Cooling, Heat Mass Transfer, (2007) 43:471-478.

[30] Peng L. M., Wang J. H., Li H., Zhao J. H., He L., Synthesis and Microstructural Characterization of Ti-Al 3 Ti Metal-intermetallic Laminate Composites, Scripta Materialia, 52 (2005) 243-248.

[31] Peng L. M., Wang J. H. , Li H., He L., Zhao J. H., Synthesis and Mechanical Properties of Ternary Molybdenum Carbosilicide and Its Composite, J. of Materials Science, 40 (2005) 2705-2707.

[32] Peng L.M., Li H., Wang J. H. , Processing and Mechanical Behavior of Laminated Ti- Al 3 Ti Composites, J. of Materials Science and Eng. A 406 (2005)309-318.

[33] Wang J. H., Messner J., Stetter H., An Experimental Investigation of Transpiration Cooling, Part I- An Application Investigation on Infrared Measurement Technique, International J. of Rotating Machinery, April 2003, Vol 9, No. 3, 154-163.

[34] Wang J. H., Messner J., Stetter H., An Experimental Investigation of Transpiration Cooling, Part II- Comparison of Cooling Methods and Media, International J. of Rotating Machinery, Aug. 2004,Vol 9, No.10, 355-363.

[34] Peng L. M., Li H., Wang J. H., Gong, M., High Strength and High Fracture Toughness Ceramic-iron Aluminid3 (Fe 3 Al) Composites, Materials Letters 60 (2006) 883-887.

[36] Peng L. M., Li H., Wang J. H., Gong, M., Synthesis and Microstructural Characterization of Aluminum Borate Whiskers, Ceramics International 32 (2006)365-368.

[37] Peng L. M., Wang J. H., Li H., Gong M., Processing and Mechanical Properties of Multiphase Composites Based on Mo-Si-Al-C system, J. of Alloys and Compounds 420(2006) 77-82.

[38]马杰,林佳,王建华,液态水相变发散冷却的实验,航空动力学报,(2014)第29卷,第3,556-562.

[39] 贾闪,王晓春,王建华, 具有发散冷却功能的曲目结构边界层特性实验研究,航空动力学报,(2010)第25卷,第2.

[40] 周杰,王建华,气动汽车高压气体减压过程的能量损失与补偿,液压与气动,(2007)第7期,28-32.

[41] 聂晶,王建华, 叶片气动马达传动装置出口冷气特性研究,液压与气动,(2013)第11期,第267卷,75-83.

[42] 丁亮, 马杰, 王建华*, 烧结多孔介质渗透特性实验研究, 力学季刊, 33(3), pp 375-381, 2012/9.

[43] 吕锡嘉, 王建华*, 刘庆东, 吴向宇,应用红外热像技术实验研究层板结构冷却特性,航空动力学报(2009)第24卷,第10.

[44] 时骏祥,王建华*,基于遗传算法的双层发散冷却优化,航空动力学报,(2009)第24卷,第2.

[45] 谢远远,王建华,发散冷却控制烧蚀过程的数值研究,航空动力学报,(2008)第23卷,第8.

[46] 时骏祥,王建华,发散冷却最小冷却介质注射量的数值研究,航空动力学报,(2007)第22卷,第2.

[47] 马龙,王建华,吴向宇,杜治能,利用红外技术进行层板冷却特性实验研究,航空动力学报,(2007)第23卷,第4.

[48] 孙纪国,王建华,烧结多孔结构的渗透和流阻特性研究,航空动力学报,(2008)第23卷,第1.

[49] 张洪,王建华,张清波,透平叶片顶部间隙流动特性的实验和数值研究,实验流体力学,(2012)第26卷,第3.

[50] 李谦,王建华,吴向宇,杨士杰,冷却介质在层板内流动特性研究,第一部分,利用粒子图像测速技术再现复杂流场,实验流体力学,(2007)第21卷,第4.

[51] 王储,王建华,杜治能,杨士杰,冷却介质在层板内流动特性研究,第二部分,数值模拟复杂结构内流场,实验流体力学,(2007)第21卷,第4.

[52] 杨帆,胡阳洋,王建华,重型卡车风阻优化,交通运输工程学报,(2013)第3卷,第654-61.

[53] 王晓春, 王建华, 刘朋欣, 涡轮叶片端壁表面温度相似性研究, 热能动力工程, (2015) 01, pp 1-5+157.


  重要境外国际会议论文

[1] Ran Yao, Jianhua Wang, Wenshuo Yang, Wei Wang, Zhineng Du, Ming Wang, A Numerical Investigation on the Differences between Annular and Flat Film Cooled Endwalls, ASME Paper, GT2017-63337, June 26-30, 2017, Charlotte, NC, USA.

[2]Wei Wang, Jian Pu, Rui-ming Yuan, Jian-hua Wang, Bin-peng Kang, Yong-xian Ruan, An experimental investigation on the overall cooling performances of two turbine endwall structures, ASME GT2017-63226, June 26-30, 2017, Charlotte, NC, USA.

[3] N Wu, J H Wang, L Shen, G Q Dong and J H Xie, Numerical study of a three dimensional interaction between two bow shock waves and the aerodynamic heating on a wedge shaped nose cone, ICMAE [C]187, 2016 Dec. 29-31, Hong Kong.

[4] Lin Shen, Jianhua Wang, Wenjie Dong, A numerical investigation on aero-thermodynamic characteristics of a nose cone in wind tunnel and near space flight environment, International Conference on Computational Methods for Thermal Problems, [C] 220-223, 2016 July 6-8, Georgia Tech, Atlanta, USA.

[5] Wenjie Dong, Jianhua Wang, Lin Shen, Effects of permeability on two-dimensional transpiration cooling, International Conference on Computational Methods for Thermal Problems, [C] 272-275, 2016 July 6-8, Georgia Tech, Atlanta, USA.

[6] Xue-yi Wang, Jian Pu, Rui-ming Yuan, Jian-hua Wang, Combined influences of surface deposition and hole-blockage on film-cooling performances. ASME GT2016-56902, June 15-19, 2015, Montréal, Canada..

[7] Qingbo Zhang, Huazhao Xu, Jianhua Wang, Ge Li, Lei Wang, Xiangyu Wu, Shiyan Ma, Evaluation of CFD predictions using different turbulence models on a film cooled guide vane under experimental conditions, ASME GT2015-42563, June 15-19, 2015, Montréal, Canada.

[8] Wenshuo Yang, Jian Pu, Jianhua Wang, Combination effects of upstream-ramp and swirling coolant flow on film cooling characteristics, ASME GT2015-43051, June 15-19, 2015, Montréal, Canada.

[9] Prasert Prapamonthon, Huazhao Xu, Wenshuo Yang, Jianhua Wang, Predicting Adiabatic Film Effectiveness of a Turbine Vane by Two-equation Turbulence Model, ASME GT2015-42565, June 15-19, 2015, Montréal, Canada.

[10] Zhaoqing Ke, Jian Pu, Jianhua Wang, Lei Wang, Zhiqiang Zhang, Xiangyu Wu, Investigation on Fluid Flow and Heat Transfer Performances within a Real Turbine Blade Channel, ASME Turbo Expo GT2014-25097, June 16-20, 2014, Düsseldorf, Germany.

[11] Huazhao Xu, Jianhua Wang, Ting Wang, A Numerical Investigation of Stator-Rotor Interaction Effects on Flow Field and Film Cooling Effectiveness in a 3D Transonic Turbine Stage with Highly Twisted Rotors, ASME International Mechanical Engineering Congress & Exposition, IMECE2013-66784,Nov. 15-21, 2013, San Diego, California, USA.

[12] Huazhao Xu, Jianhua Wang, Ting Wang,Numerical Investigations of Wake and Shock Wave Effects on Film Cooling Performance in a Transonic Turbine Stage, Part 2 – Unsteadiness Effect in a 2D Rotating Passage, ASME Turbo Expo GT2013-94545, June 3-7 , 2013, San Antonio, Texas, USA.

[13] Huazhao Xu, Jianhua Wang, Ting Wang, Numerical Investigations of Wake and Shock Wave Effects on Film Cooling Performance in a Transonic Turbine Stage, Part 1 – Methodology Development and Qualification over Stationary Stators and Rotors,ASME Turbo Expo GT2013-94544, June 3-7 , 2013, San Antonio, Texas, USA.

[14] Jian Pu, Zhaoqing Ke, Jianhua Wang,Lei Wang, Hongde You, An Experimental Investigation of Tip Coolant Ejection Effect on Internal Flow Behaviors Within a Realistic Blade Coolant Channel,ASME Turbo Expo GT2013-94136, July 3-7, 2013, San Antonio, Texas, USA.

[15] Jianhua Wang, Xiaochun Wang, Lianjin Zhao, Fei He, Shiyan Ma, Changming Hao, An Experimental and Numerical Investigation on Endwall Film Cooling, ASME Turbo Expo GT2013-94267, July 3-7, 2013, San Antonio, Texas, USA.

[16] Zhixin Feng, Zhongwang Dou, Jianhua Wang, Shiyan Ma, Zhiqiang Zhang, Numerical Investigations of Cooling Enhancement with Internal Ribs and External Coolant Film, ASME Turbo Expo 2012 Power for Land, Sea, and Air, June 11-15, 2012, Copenhagen, Denmark, GT2012-68682.

[17] Chengyun Xin, Jianhua Wang, Jianheng Xie, Yuee Song, Modeling and Numerical Simulations of Vapor-Liquid Flow and Heat Transfer within Micro-channel Heat Sinks, Proc. of the ASME 2012 3rd Micro/Nanoscale Heat & Mass Transfer International Conference, March 3-6, 2012, Atlanta, Georgia, USA, MNHMT2012-75239.

[18] Jianhua Wang, Yejun Zhu, Jian Kuang, Xiaochun Wang, Numerical Investigation on Film Cooling Performances, ASME Turbo Expo 2011 Power for Land, Sea, and Air, June 6-10, 2011, Vancouver, Canada, GT2011-45775.

[19]Wang J. H., Liu Y. L., Wang X. C., Du Z. N., Yang S.J., Characteristics of Tip Leakage of the Turbine Blade with Cutback Squealer and Coolant Injection, ASME Turbo Expo 2010 Power for Land, Sea, and Air, June 14-18, 2010, Glasgow, UK, GT2010-22566.

[20]Wang J. H., Liu H. C., Mao M., Li X., Zhang Z. Q., Numerical Investigation of Fluid Flow and Heat Transfer Performances of Semiattached Rib Channel Design, ASME Turbo Expo 2010 Power for Land, Sea, and Air, June 14-18, 2010, Glasgow, UK, GT2010-22563.

[21]Zhang H., Wang J. H., Wu X. Y., Lu H. Y., A Simplified Approach to Design Transverse Ribs Which Array Alternately in Rectangular Channel, ASME Turbo Expo 2010 Power for Land, Sea, and Air, June 14-18, 2010, Glasgow, UK, GT2010-22562.

[22] Wang J. H., Lv X. J., Liu Q.D., Wu X. Y., An Experimental Investigation on Cooling Performance of a Laminated Configuration Using Infrared Thermal Image Technique, ASME Turbo Expo 2008 Power for Land, Sea, and Air, June 8-12, 2009, Orlando, Florida, USA, GT2009-59838.

[23] Wang J. H., Xu H. Z., Lv X. J., DuZ. N., Yang S. J., A Nunmerical Investigation on Fluid-Thermal- Structure Coupling Characteristics of Laminated Film Cooling Configurations, ASME Turbo Expo 2008 Power for Land, Sea, and Air, June 8-12, 2009, Orlando, Florida, USA, GT2009-59604.

[24] Wang, J. H., Xu, H. Z., Liu, Y. L., Du, Z. N., Yang, S. J., Experimental and Numerical Investigations on Turbine Airfoil Cooling Designs, Part I-An Investigation on Flow Features by Particle Image Velocimetry, ASME Turbo Expo 2008 Power for Land, Sea, and Air, June 14-17, 2008, Berlin, Germany, GT2008-50673.

[25] Wang, J. H., Xu, H. Z., Liu, Y. L., Wu, X. Y., Yang, S. J., Experimental and Numerical Investigations on Turbine Airfoil Cooling Designs, Part II-An Investigation on Heat Transfer Features by Infrared Thermal Imaging Technique, ASME Turbo Expo 2008 Power for Land, Sea, and Air, June 14-17, 2008, Berlin, Germany, GT2008-50674.

[26] Wang, J. H., Messner, J., Casey, V. M., Performance Investigation on Film and Transpi- ration Cooling, ASME Turbo Expo 2004 Power for Land, Sea, and Air, 14-17 June 2004, Vienna, Austria,GT2004-54132, ISBN: 0-7917-3739-4.

[27] Wang H. N., Wang, J. H., A Numerical Investigation of Ablation and Transpiration Cooling Using the Local Thermal Non-equilibrium Model, Proc. of 42nd AIAA/ASME/ SAE /ASEE Joint Propulsion Conference & Exhibit, 2006 July 09-12, Sacarmento California, USA AIAA -5264.

[28] Wang, J. H., Messner, J., Stetter, H., An Experimental Investigation of Transpiration Cooling, Part I- An Application Investigation on Infrared Measurement Technique, Proc. ISROMAC-9, 10-14 Feb. 2002, Honolulu, Hawaii, USA.

[29] Wang, J. H., Messner, J., Stetter, H., An Experimental Investigation of Transpiration Cooling, Part II- Comparison of Cooling Methods and Media, Proc. ISROMAC-9, 10-14 Feb. 2002, Honolulu, Hawaii, USA.

[30] Stetter, H., Wang, J. H., Basic Performance Characteristics of a Transpiration Cooling Method for Turbine Nozzle Guide Vane Using Evaporating Liquids, [C] The 4th European Conference on Turbomachinery, 20-23 March 2001, Firenze , Italy , ISBN 88-86281-57-9.

[31] Stetter, H., Wang, J. H., Messner, J., An Experimental Investigation of Transpiration Cooling, Part I- Feasibility Test and Performance Estimation, [C] ISROMAC-8, 26-30 March 2000 Honolulu, Hawaii, USA, Vol. 1, pp.778-785.

[32] Wang, J. H., Stetter, H., An Experimental Investigation of Transpiration Cooling, Part II- Performance Comparison With Film Cooling, [C] ISROMAC-8, 26-30 March 2000, Honolulu, Hawaii, USA, Vol. 1, pp.786-792.




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