基本信息

 

雷  蒋,教授,博士生导师

空天工程系主任

西安交通大学,航天航空学院

联系方式

通讯地址:西安交通大学航天航空学

                 陕西省西安市咸宁西路28号

邮       编:710049

电子邮件:leijiang@mail.xjtu.edu.cn

电       话:029-82665643

 

站点计数器

团队简介

教育经历

1998.09~2002.07  西安交通大学  能源与动力工程学院  学士

2003.09~2006.05  西安交通大学  能源与动力工程学院  硕士

2007.08~2011.06  美国得州农工大学  机械工程系  博士  

 

工作经历

2011.06~2011.10  美国得州农工大学  机械工程系  助理研究员

2012.10~2015.10  西安交通大学  航天航空学院  讲师

2015.10~2022.12  西安交通大学  航天航空学院  副教授

2023.01~至今        西安交通大学  航天航空学院  教授

 

研究方向

(1)航发和燃机热端部件传热冷却:构建静叶内部冷却流动与传热实验系统、动叶内部冷却旋转实验系统、叶栅气膜冷却实验台等多台套实验设备,采用实验手段和数值模拟,对热端部件内的复杂流动传热问题开展机理和工程研究,为热端部件精细化设计提供基础数据和快速验证的支持。

(2)航天推进系统主动热防护:针对液体火箭发动机燃烧室,研究高热流密度下高压碳氢燃料的再生冷却和液膜冷却性能,探索新型冷却方式;针液体燃料冲压发动机,研究燃烧室高效再生冷却技术和冷却模式的匹配与优化;针对强预冷发动机,研究部件参数匹配优化和冷却构型设计。

(3)飞行器增压舱内压力调节与控制:针对国产大型客机增压舱内部流道的流量系数和失压条件下的泄压载荷开展试验测量和数值模拟,在此基础上进行机体结构强度评估,为国产客机适航认证提供重要保障,成果获得局方的高度重视和设计单位的好评。

(4)高超飞行器热环境与热分析:针对高超飞行器内外环境热综合效应问题,研究了多元热载荷产生和传递机理,发展了舱室热环境快速预测方法,为热环境和热防护一体化精细设计提供支持。

 

科研项目

(1)东汽横向课题“燃机透平传热试验台测试系统建设”

(2)中科院工热所横向课题“高温喷嘴叶栅试验台试验技术咨询、湍流度与压力脉动相关测量方法预先研究”

(3)国科金面上项目“燃气涡轮进口导叶尾缘气膜喷射的二次冷却效应机理研究”

(4)东汽横向课题“燃机透平传热试验台建设技术合作”

(5)国家科技重大专项“长寿命透平叶片气热耦合设计理论与方法研究”

(6)上飞院横向课题“远程宽体客机增压舱流道流量系数试验与仿真”

(7)国科金面上项目“典型工况下航空燃气轮机涡轮动叶内部冷却弯道的流动传热机理研究”

 

发表论文

  • Yang, X., Zhang K., Yao, J., Wu, J., Lei, J.*, Xiong, Y.*, and Wang, H., "Experimental and Numerical Investigations of Vane Endwall Film Cooling with Different Cooling Hole Configurations," Aerospace Science and Technology, 142(2023), Article ID. 108658, 2023. 
  • Yao, J., Zhang, K., He, W., Lei, J.*, and Xu, J., "Investigation on Heat Transfer Distribution of Rotating Two-Pass Smooth and Ribbed Channels Under Aero-Engine Simulated Conditions," Journal of Turbomachinery, 2023, Volume 145(12), Article ID 121002, 2023. 
  • Duan, J., Zhang, K.*, Xu, J., Lei, J., and Wu, J.*, "Investigation on Flow Characteristics and Its Effect on Heat Transfer Enhancement in a Wide Channel With Staggered Diamond-S Pin Fins," Journal of Turbomachinery, 2023, Volume 145(9), Article ID 091004, 2023.
  • Yang, X., Zhang, K., Yao, J., Wu, J., Lei, J.*, Su, P., and Fang, Y., "Experimental and Numerical Investigations of Vane Endwall Film Cooling with Different Density Ratios," International Communications in Heat and Mass Transfer, 144(2023), Article ID. 106778, 2023. 
  • He, W., Yang, X., Luo, D., Lei, J.*, Li, Z., Lin, S., and Zhang, C., "Decompression Load Analysis in Large Passenger Planes with Windshield Cracked," Aerospace, 9(517), Article ID. 9090517, 2022. 
  • He, J., Yao, J., Yang X., Zhang, K., Lei, J.*, and Xie, G., "Investigation on Overall Performance of Double-jet Film Cooling Holes with Various Spanwise Distance," International Journal of Thermal Sciences, Volume 183(2023), Article ID 107841, 2022. 
  • Yang, X., Zhang, K., Wu, J., Lei, J.*, Su, P. and Fang, Y., "Numerical Analysis of Vane Endwall Film Cooling and Heat Transfer with Different Mainstream Turbulence Intensities and Blowing Ratios," International Journal of Thermal Sciences, Volume 175(2022), Article ID 107482, 2022. 
  • He, W., Zhang, K., Wu, J.,Lei J.*, Su, P., and Fang,Y., "Effects of High Buoyancy Parameter on Flow and Heat Transfer of Two-Pass Smooth/Ribbed Channels," Energies, 15(148), Article ID. 15010148, 2022. 
  • Xu, J., Zhang, K., Duan, J., Lei, J.*, and Wu, J., "Systematic Comparison on Convective Heat Transfer Characteristics of Several Pin Fins for Turbine Cooling," Crystals, 11(977), Article ID. 11080977, 2021. 
  • Luo, D., Zhang, K., Lei, J.*, Xie, G.*, and Lesley, M., "Analysis of Upstream, Double-row, Cylindrical Holes on Primary and Secondary Effects of Endwall Flow and Film Cooling," International Journal of Heat and Fluid Flow, 82(2020), Article ID 108568, 2020.
  • Yao, J., Su, P., He, J., Wu, J., Lei, J.*, and Fang, Y., "Experimental and Numerical Investigations on Double-Jet Film-Cooling with Different Mainstream Incidence Angles," Applied Thermal Engineering, 166(2020), Article ID 114737, 2020.
  • He, J., Yao, J., Yang, X., Duan J., Lei, J.* , and Xie G., "Effects of Mainstream Attack Angles on Film-Cooling Effectiveness of Double-Jet Film Cooling," International Journal of Thermal Sciences, Volume 149(2020), Article ID 106183, 2020.
  • 雷蒋*,鲁瑞山,秦岭,罗丁,何建宏,马元,"静叶栅上游端壁双射流气膜冷却特性实验研究,"火箭推进,2020,46(2):36-43.
  • 何建宏,张科,杨玺,段敬添,武俊梅,雷蒋*,"主流攻角对双射流气膜冷却特性的影响,"航空动力学报,2020,35(3):493-501.
  • Yao, J., Zhang K.., Wu, J., Lei, J.*, Fang, Y., and Wright, L., "An Experimental Investigation on Streamwise Distance and Density Ratio Effects on Double-Jet Film-Cooling," Applied Thermal Engineering, Volume 156(25), pp. 410-421 , 2019.
  • Yao, J., Xu, J., Zhang, K., Lei, J.*, and Wright, L., "Effect of Density Ratio on Film-Cooling Effectiveness Distribution and Its Uniformity for Several Hole Geometries on a Flat Plate," Journal of Turbomachinery, 2019, Volume 141(5), Article ID 051008, 2019.
  • Yao, J., Xu, J., Zhang, K., Lei, J.*, and Wright, L., "Interaction of Flow and Film-Cooling Effectiveness between Double-Jet Film-Cooling Holes with Various Spanwise Distance," Journal of Turbomachinery, 2018, Volume 140(12), Article ID 121011, 2018.
  • 姚家旭,徐进,张科,武俊梅,雷蒋*,"横向间距与密度比对双射流气膜冷却特性影响,"航空动力学报,2018,33(6):1336-1344,
  • 姚家旭,雷蒋*,"不同横向距离下双射流孔流动与冷却特性实验研究,"火箭推进,2018,44(1):36-43,
  • Lei, J.*, Su, P., Xie, G.*, and Lorenzini, G., "The Effect of a Hub Turning Vane on Turbulent Flow and Heat Transfer in a Four-pass Channel at High Rotation Numbers,"International Journal of Heat and Mass Transfer, Volume 92 (2016), pp.578-588, 2016. DOI: 10.1016/j.ijheatmasstransfer.2015.08.034
  • Lei, J., Wang, X.*, and Xie, G., "High-Performance Computation of a Jet in Cross Flow by Lattice Boltzmann Based Parallel Direct Numerical Simulation," Mathematical Problems in Engineering, Volume 2015, Article ID 956827, 2015. DOI:10.1155/2015/956827
  • Lei, J., Wang, X.*, Xie, G., and Lorenzini, G., "Turbulent Flow Field Analysis of a Jet in Cross Flow by DNS," Journal of Engineering Thermophysics,"Volume 24(3), pp.259-269, 2015. DOI: 10.1134/S1810232815030078
  • Lei, J.*, Li, S., Han, J., Zhang, L., and Moon, H., "Effect of a Turning Vane on Heat Transfer in Rotating Multipass Rectangular Smooth Channel," AIAA Journal of Thermophysics and Heat Transfer, Volume 28 (3), pp.417-427, 2014. DOI:10.2514/1.T4311
  • Jackson, R. L.*, and Lei, J., "Hydrodynamaically Lubricated and Grooved Biomimetic Self-Adapting Surfaces," Journal of Functional Biomaterials, Volume 5(2), pp.78-98, 2014. DOI:10.3390/jfb5020078
  • Rallabandi, A., Lei, J., Han, J.*, Azad, S., and Lee, C., "Heat Transfer Measurements in Rotating Blade-Shape Serpentine Coolant Passage With Ribbed Walls at High Reynolds Number", ASME Journal of Turbomachinery, Volume 136 (9), pp. 091004_1-9, 2014. DOI:10.1115/1.4026945