姓 名 陈建业 性 别 男
职 称 讲师 毕业学校 浙江大学
个人主页
联系方式
邮 箱 jianye_chen@hust.edu.cn
通讯地址 华中科技大学西四楼201
个人资料简介
陈建业，男，1989年5月生，博士，讲师。现任制冷与低温工程系教学主任，《真空与低温》期刊青年编委。研究领域主要包括：射流喷雾冷却、低温推进剂热管理、低温两相流动与传热、氢能储运等，长期投身于国防、航空航天领域的低温两相流动与传热研究。截至目前，在International Journal of Heat and Mass Transfer，Physicsof Fluids, Apply Thermal Engineering，International Journal of Hydrogen Energy等期刊上发表论文二十余篇，参与编写英文著作一章节。主持国家自然科学基金一项，国防课题多项。
教育及工作经历 2016.10-至今华中科技大学能源与动力工程学院讲师
2011.9-2016.9 浙江大学能源工程学院博士
2007.9-2011.6 华中科技大学能源与动力工程学院学士

研究方向 高热流密度喷雾冷却
氢能储运
低温两相流动与传热
低温推进剂热管理

科研项目 1 国家自然科学基金-青年项目——热作用下低温流体两相射流雾化机理研究（主持）
2 低温推进剂国家重点实验室基金——液氢传输管道预冷过程的流动与传热耦合机理研究（主持）
3国防课题——液氮供给系统压力控制流程动态仿真及验证项目（主持）
4国防课题——SH区域气流组织及FS性气溶胶扩散仿真研究（主持）
5国防课题——液氧罐自由液面控制及动态蒸发率数值仿真研究（主持）
6国防课题——潜艇热管自流冷却效能仿真研究（参与）
代表性论文与专利 1) Gao, X., Bao, S., Shao, S., Hu, H., Zhou, S., Chen, J., &Xie, J. (2020). Theoretical analysis on the atomization characteristics of liquid nitrogen jets. Physics of Fluids, 32(5), 054102.
2) Chen, J., Gao, X., Bao, S., Hu, L., &Xie, J. (2020). Numerical analysis of spray characteristics with liquid nitrogen. Cryogenics, 103113.
3) Xiaobin Zhang, Rui Zhou, LiminQiu, Lei Yao, Jianye Chen*, Guan Heng Yeoh. Flooding prediction of counter-current flow in a vertical tube with non-axisymmetric disturbance waves, Annals of Nuclear Energy, 2018 (SCI)
4) Jianye Chen, Ruirui Zeng, Xiaobin Zhang, LiminQiu, and JunlongXie. "Numerical modeling of flow film boiling in cryogenic chilldown process using the AIAD framework." International Journal of Heat and Mass Transfer 124 (2018): 269-278.(SCI)
5) Jianye Chen, Ruirui Zeng, Wei Zhang, LiminQiu, and Xiaobin Zhang. "Numerical analysis of energy separation in Ranque-Hilsch vortex tube with gaseous hydrogen using real gas model." Applied Thermal Engineering 140 (2018): 287-294.(SCI)
6) Xiaobin Zhang, Jianye Chen. Flooding Phenomenon of Cryogenic Liquids. Handbook of Multiphase Flow Science and Technology, Springer, 2017, 1-35. (Book Chapter)
7) Jianye Chen, Yuchen Wang, Wei Zhang, LiminQiu, Xiaobin Zhang. Capacitance-based liquid holdup measurement of cryogenic two-phase flow in a nearly-horizontal tube, Cryogenics, 2017, 84:69-75. (SCI)
8) Yao Zheng, Jianye Chen*, Yan Shang, Huawei Chang*, Hong Chen, Shuiming Shu. Numerical analysis of the influence of wall vibration on heat transfer with liquid hydrogen boiling flow in a horizontal tube. International Journal of Hydrogen Energy. 2017, 42 (52):30804-30812. (SCI)
9) Jianye Chen, Yuchen Wang, Wei Zhang, LiminQiu, Xiaobin Zhang. Theoretical Prediction of Flooding Velocity in an Inclined Tube Based on Viscous Kelvin-Helmholtz Instability. Chemical Engineering Science, 2016, 144:395-403. (SCI)
10) Xiaobin Zhang, Jianye Chen, Wei Xiong, Tao Jin. Visualization study of nucleate pool boiling of liquid nitrogen with quasi-steady heat input. Cryogenics, 2015, 72:14-21. (SCI)
11) Jianye Chen, Yuan Tang, Wei Zhang, Yuchen Wang, LiminQiu, Xiaobin Zhang. Computational fluid dynamic simulations on liquid film behaviors at flooding in an inclined pipe. Chinese Journal of Chemical Engineering, 2015, 23(9):1460-1468.(SCI)
12) Jianye Chen, Lu Xu, Wei Xiong, LiminQiu, Xiaobin Zhang. Experimental results of flooding experiments in an inclined tube with liquid nitrogen and its vapor. Cryogenics, 2014, 62:1-6. (SCI)
13) Xiaobin Zhang, Jianye Chen, Zhihua Gan, LiminQiu, Kaihao Zhang, Ruping Yang, Xiaojing Ma, Zhihong Liu. Experimental study of moisture uptake of polyurethane foam subjected to a heat sink below 30K. Cryogenics, 2014, 59:1-6. (SCI)
14) Xiaobin Zhang, Jianye Chen, Lei Yao, Yonghua Huang, Xuejun Zhang, LiminQiu. Research and development of large-scale cryogenic air separation in China. Journal of Zhejiang University SCIENCE A, 2014, 15(5): 309-322. (SCI)
15) Xiaobin Zhang, Lei Yao, Jianye Chen, Wei Zhang, Wei Xiong, Xuejun Zhang, LiminQiu. Prediction of the onset of flooding in an inclined tube at cryogenic temperatures. Cryogenics, 2014, 61:98-106. (SCI)
16) Xiaobin Zhang, Wei Zhang, Jianye Chen, LiminQiu, Daming Sun. Validation of dynamic cavitation model for unsteady cavitating flow on NACA66. Science China Technological Sciences, 2014, 57(4):819-827. (SCI)
所获荣誉和奖励 2017年教学竞赛二等奖