人物經歷
1978.02-1982.02
合肥工業大學,精密機械工程系,工學學士。
1983.09-1986.07 哈爾濱工業大學,動力工程系,工學碩士。
1998.02-2002.12 德國斯圖加特大學,能源工程系,熱流體機械研究所,工學博士(Dr.-Ing.)。
1992.02-1993.08 中科院訪問學者,德國宇航院,哥庭根流體力學研究所,從事光學測量及數據處理技術研究。
1996.06-1996.12 資深助理研究員,香港城市大學,從事數學模型和數值計算技術研究。
1998.04-2002.12 全職研究夥伴BatA2,
德國斯圖加特大學,熱流體機械研究所,從事燃氣輪機冷卻技術實驗研究。
主講課程
2)傳熱及流動過程的數值計算。
4)熱過程的數值模擬。
5)傳熱傳質學(雙語課)。
研究方向
1)多孔介質里傳熱傳質過程的解析解、
數值計算方法及實驗技術研究。
2)空天飛行器主動熱防護技術及相關材料和強化冷卻問題研究。
5)高壓氣體儲能理論及套用技術研究。
主要貢獻
雜誌論文
[1] Wang J. H., Shi J. X., Discussion of Boundary Conditions of Transpiration Problems Using LTNE Model, ASME J. of Heat Transfer, Jan. 2008,Vol.130, No.1. [2] Wang J. H., Wang H. N., A Discussion of Transpiration Cooling Problems Through an Analytical Solution of Local Thermal Non-Equilibrium Model, ASME J. of Heat Transfer, Oct. 2006, Vol. 128, 1093-1098.
[3] Shi J. X., Wang J. H., Inverse problem of transpiration cooling for estimating wall heat flux by LTNE model and CGM method, International J. of Heat and Mass Transfer, (2009)52: 2714-2720.
[4]Liu H. C., Wang J. H., Numerical Investigation on Synthetical Performances of Fluid Flow and Heat Transfer of Semiattached Rib-channels,International J. of Heat and Mass Transfer, (2010)53:
[5] Wang J. H., Gan M., Detecting and Characterization of Penetrating Pores of Porous Materials, Materials Characterization, 58(2007)8-12.
[6] Shi J. X., Wang J. H., Optimized Structure of Two Layered Porous Media with Genetic Algorithm for Transpiration Cooling, International J. of Thermal Science, (2008)47:1595 -1601.
[7] Shi J. X., Wang J. H., Inverse problem of estimating space and time dependent hot surface heat flux in transient transpiration cooling process, International J. of Thermal Science, (2009)48:1398-1404
[8] Wang J. H., Han X. S., Numerical Investigation of Transpiration and Ablation Cooling, Heat Mass Transfer, (2007)43:274-284.
[9] 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.
[10] 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.
[11] 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.
[12] 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.
[13] 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.
[14] 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.
[15] 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.
[16] 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.
[17] Peng L. M., Li H., Wang J. H., Gong, M., Synthesis and Microstructural Characterization of Aluminum Borate Whiskers, Ceramics International 32 (2006)365-368.
[18] 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.
[19]賈閃,
王曉春,王建華, 具有發散冷卻功能的曲目結構邊界層特性實驗研究,
航空動力學報,(2010)第25卷,第2期.
[20]
周杰,王建華,氣動汽車高壓氣體減壓過程的能量損失與補償,液壓與氣動,(2007)第7期,28-32.
[21] 謝遠遠,王建華,發散冷卻控制燒蝕過程的數值研究,
航空動力學報,(2008)第23卷,第8期.
[22] 時駿祥,王建華,發散冷卻最小冷卻介質注射量的數值研究,
航空動力學報,(2007)第22卷,第2期.
[23] 馬龍,王建華,吳向宇,杜治能,利用紅外技術進行層板冷卻特性實驗研究,
航空動力學報,(2007)第23卷,第4期.
[24] 孫紀國,王建華,燒結多孔結構的滲透和流阻特性研究,
航空動力學報,(2008)第23卷,第1期.
[25] 李謙,王建華,吳向宇,楊士傑,冷卻介質在層板內流動特性研究,第一部分,利用粒子圖像測速技術再現複雜流場,實驗流體力學,(2007)第21卷,第4期.
[26] 王儲,王建華,杜治能,楊士傑,冷卻介質在層板內流動特性研究,第二部分,數值模擬複雜結構內流場,實驗流體力學,(2007)第21卷,第4期.
會議論文
[1]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, Proc. of ASME Turbo Expo 2010 Power for Land, Sea, and Air, June 14-18, 2010, Glasgow, UK, GT2010-22566.
[2]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, Proc. of ASME Turbo Expo 2010 Power for Land, Sea, and Air, June 14-18, 2010, Glasgow, UK, GT2010-22563.
[3]Zhang H., Wang J. H., Wu X. Y., Lu H. Y., A Simplified Approach to Design Transverse Ribs Which Array Alternately in Rectangular Channel,Proc. of ASME Turbo Expo 2010 Power for Land, Sea, and Air, June 14-18, 2010, Glasgow, UK, GT2010-22562.
[4] 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, Proc. of ASME Turbo Expo 2008 Power for Land, Sea, and Air, June 8-12, 2009, Orlando, Florida, USA, GT2009-59838.
[5] Wang J. H., Xu H. Z., Lv X. J., Du Z. N., Yang S. J., A Nnmerical Investigation on Fluid-Thermal- Structure Coupling Characteristics of Laminated Film Cooling Configurations, Proc. of ASME Turbo Expo 2008 Power for Land, Sea, and Air, June 8-12, 2009, Orlando, Florida, USA, GT2009-59604.
[6] 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, Proc. of ASME Turbo Expo 2008 Power for Land, Sea, and Air, June 14-17, 2008, Berlin, Germany, GT2008-50673.
[7] 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, Proc. of ASME Turbo Expo 2008 Power for Land, Sea, and Air, June 14-17, 2008, Berlin, Germany, GT2008-50674.
[8] Wang, J. H., Messner, J., Casey, V. M., Performance Investigation on Film and Tran- spiration Cooling, Proc. of ASME Turbo Expo 2004 Power for Land, Sea, and Air, 14-17 June 2004, Vienna, Austria,GT2004-54132, ISBN: 0-7917-3739-4.
[9] 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, 09-12, July, 2006, Sacarmento California, USA 2006-AIAA-5264.
[10] 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.
[11] 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.
[12] Stetter, H., Wang, J. H., Basic Performance Characteristics of a Transpiration Cooling Method for Turbine Nozzle Guide Vane Using Evaporating Liquids, Proc. of 4th European Conference on Turbomachinery, 20-23 March 2001, Firenze , Italy , ISBN 88-86281-57-9.
[13] Stetter, H., Wang, J. H., Messner, J., An Experimental Investigation of Transpiration Cooling, Part I- Feasibility Test and Performance Estimation, Proc. ISROMAC-8, 26-30 March 2000 Honolulu, Hawaii, USA, Vol. 1, pp.778-785, ISBN#0-9652469-9-x.
[14] Wang, J. H., Stetter, H., An Experimental Investigation of Transpiration Cooling, Part II- Performance Comparison With Film Cooling, Proc. ISROMAC-8, 26-30 March 2000, Honolulu, Hawaii, USA, Vol. 1, pp.786-792, ISBN#0-9652469-9-x.