伟德国际1946官方网

团队队伍

teaching staff

站内搜索

副教授

当前位置: 首 页 > 团队队伍 > 制冷与低温工程系 > 副教授 > 正文
姓 名 陈建业 性 别
职 称 副教授 毕业学校 浙江大学
个人主页 http://faculty.hust.edu.cn/chenjianye/zh_CN/index.htm
联系方式
邮 箱 jianye_chen@hust.edu.cn
通讯地址 伟德国际1946源自英国新能源大楼N602
个人资料简介
现任制冷与低温工程系副主任,湖北省制冷学会理事,《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JFM, HMT,PoF,ATE,IJHE等国际一流期刊上发表论文四十余篇,编写英文著作章节、参编教材《低温技术原理与装置》。主持国家自然科学基金两项,企业横向课题十余项。曾获国际制冷学会“卡尔·林德”青年学者奖项。担任第28届国际低温工程大会分会场主席。曾指导员工获首届全国能源动力类专业百篇优秀毕业论文,多次获得全国可再生能源科技竞赛奖。讲授《低温技术原理与装置》、《能源与动力装置基础》等本科生课程和《工程流体力学理论及应用》等研究生课程。

教育及工作经历

    2021.11-至今伟德国际1946源自英国 伟德国际1946官方网 副教授
    2016.10-2021.10 伟德国际1946源自英国 伟德国际1946官方网 讲师
    2011.9-2016.9 浙江大学 能源工程学院 博士
    2007.9-2011.6 伟德国际1946源自英国 伟德国际1946官方网 学士

研究方向

    空分设备精馏塔传热与传质研究
    低温两相流动与传热
    喷雾冷却
    低温推进剂热管理
    氢能储运与氢安全

科研项目

    1.国家自然科学基金面上项目——大型低温风洞内凝结氮液滴形成规律及其流场示踪特性研究(主持)
    2.国家自然科学基金青年基金——热作用下低温流体两相射流雾化机理研究(主持)
    3.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)
    4.GF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)
    5.GF课题——**区域气流组织及***气溶胶扩散仿真研究(主持)
    6.GF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)
    7.GF课题——低温流量测量技术研究(主持)
    8.GF课题——液氢加氢站泄漏后果分析及防护策略研究(主持)
    9.企业委托课题——加氢站引射混压式液氢和高压氢联合加氢技术研究(主持)
    10.企业委托课题——多维度储氢系统模式耦合与低温储氢安全研究(主持)
    11.企业委托课题——加氢站技术流程优化与关键技术研究(参与)
    12.  企业委托课题——开式微型节流制冷器仿真设计平台(参与)

代表性论文与专利

    1.Yuan, W., Li, J., Zhang, R., Li, X., Xie, J., & Chen, J. (2022). Numerical investigation of the leakage and explosion scenarios in China's first liquid hydrogen refueling station. International Journal of Hydrogen Energy, 47(43), 18786-18798.
    2.Gao, X., Chen, J., Qiu, Y., Ding, Y., & Xie, J. (2022). Effect of phase change on jet atomization: a direct numerical simulation study. Journal of Fluid Mechanics, 935.
    3.Yu, Y., Qiu, Y., Liu, J., Chen, J., Ding, Y., & Xie, J. (2022). Impact of geometrical surface modification on spray cooling heat transfer performance with liquid nitrogen: An experimental investigation. Cryogenics, 122, 103438.
    4.Chen, J., Xiao, L., Wu, Y., Gao, X., Chen, H., Xie, J., & Shao, S. (2022). Dynamic simulation of the potential of integrating a turbo-expander in a hydrogen refueling station. Applied Thermal Engineering, 202, 117889.
    5.Xiao, L., Chen, J., Wu, Y., Zhang, W., Ye, J., Shao, S., Xie, J. Effects of pressure levels in three-cascade storage system on the overall energy consumption in the hydrogen refueling station (2021) International Journal of Hydrogen Energy, 46 (61), pp. 31334-31345.
    6.Chen, J., Ding, Y., Wu, Z., Yu, Y., Shao, S. Numerical analysis of vortex tube performance in novel hydrogen refueling process (2021) Huagong Xuebao/CIESC Journal, 72, pp. 461-466.
    7.Shen, L., Ji, J., Luo, F., Chen, J., Xie, J., Huang, T. Flow and heat transfer characteristics of micro-channel cooling chip at non-uniform heat flux (2021) Zhongnan Daxue Xuebao (Ziran Kexue Ban)/Journal of Central South University (Science and Technology), 52 (6), pp. 1809-1816.
    8.Chen, J., Gao, X., Shao, S., Hu, H., Xie, J., Li, N., Gao, N. Numerical investigation of the vortex tube performance in novel precooling methods in the hydrogen fueling station (2021) International Journal of Hydrogen Energy, 46 (7), pp. 5548-5555.
    9.Chen, J., Gao, X., Bao, S., Hu, L., Xie, J. Numerical analysis of spray characteristics with liquid nitrogen (2020) Cryogenics, 109, 论文编号 103113, .
    10.Gao, X., Bao, S., Shao, S., Hu, H., Zhou, S., Chen, J., Xie, J. Theoretical analysis on the atomization characteristics of liquid nitrogen jets (2020) Physics of Fluids, 32 (5), 054102, .
    11.Zheng, Y., Chang, H., Qiu, Y., Duan, C., Chen, J., Chen, H., Shu, S. Prediction of liquid hydrogen flow boiling critical heat flux condition under microgravity based on the wall heat flux partition model (2020) International Journal of Hydrogen Energy, 45 (11), pp. 7141-7150.
    12.Chen, J., Zeng, R., Chen, H., Xie, J. Effects of wall superheat and mass flux on flow film boiling in cryogenic chilldown process (2020) AIP Advances, 10 (1), 015123, .
    13.Ye, J., Chen, J., Liu, J. A liquid metal robot driven by hybrid-fluid (2019) Zhongguo Kexue Jishu Kexue/Scientia Sinica Technologica, 49 (6), pp. 619-626.
    14.Zheng, Y., Chang, H., Chen, J., Chen, H., Shu, S. Effect of microgravity on flow boiling heat transfer of liquid hydrogen in transportation pipes (2019) International Journal of Hydrogen Energy, pp. 5543-5550.
    15.Shang, Y., Chang, H., Zheng, Y., Chen, J., Shu, S.Numerical simulation of pressure drop with liquid hydrogen flow boiling in horizontal vibration pipeline (2018) Zhongnan Daxue Xuebao (Ziran Kexue Ban)/Journal of Central South University (Science and Technology), 49 (9), pp. 2337-2343.
    16.Chen, J., Zeng, R., Zhang, X., Qiu, L., Xie, J. Numerical modeling of flow film boiling in cryogenic chilldown process using the AIAD framework (2018) International Journal of Heat and Mass Transfer, 124, pp. 269-278.
    17.Chen, J., Zeng, R., Zhang, W., Qiu, L., Zhang, X. Numerical analysis of energy separation in Ranque-Hilsch vortex tube with gaseous hydrogen using real gas model (2018) Applied Thermal Engineering, 140, pp. 287-294.
    18.Zhang, X., Zhou, R., Qiu, L., Yao, L., Chen, J., Yeoh, G.H. Flooding prediction of counter-current flow in a vertical tube with non-axisymmetric disturbance waves (2018) Annals of Nuclear Energy, 114, pp. 616-623.
    19.Zheng, Y., Chen, J., Shang, Y., Chang, H., Chen, H., Shu, S. Numerical analysis of the influence of wall vibration on heat transfer with liquid hydrogen boiling flow in a horizontal tube (2017) International Journal of Hydrogen Energy, 42 (52), pp. 30804-30812.
    20.Chen, J., Wang, Y., Zhang, W., Qiu, L., Zhang, X. Capacitance-based liquid holdup measurement of cryogenic two-phase flow in a nearly-horizontal tube (2017) Cryogenics, 84, pp. 69-75.
    21.Wang, Y.-C., Chen, J.-Y., Xu, L., Zhang, X.-B. Permittivity-based liquid film sensor for cryogenic fluid (2016) Zhejiang Daxue Xuebao (Gongxue Ban)/Journal of Zhejiang University (Engineering Science), 50 (10), pp. 1855-1858.
    22.Chen, J., Wang, Y., Zhang, W., Qiu, L., Zhang, X. Theoretical prediction of flooding velocity in an inclined tube based on viscous Kelvin-Helmholtz instability (2016) Chemical Engineering Science, 144, pp. 395-403.
    23.Zhang, X., Chen, J., Xiong, W., Jin, T. Visualization study of nucleate pool boiling of liquid nitrogen with quasi-steady heat input (2015) Cryogenics, 72 (P1), 2489, pp. 14-21.
    24.Chen, J., Tang, Y., Zhang, W., Wang, Y., Qiu, L., Zhang, X. Computational fluid dynamic simulations on liquid film behaviors at flooding in an inclined pipe (2015) Chinese Journal of Chemical Engineering, 23 (9), pp. 1460-1468.
    25.Chen, J., Wang, Y., Xiong, W., Zhao, D., Xu, L., Zhang, X. Characteristics of flooding with counter-current LN2/VN2 flow in inclined tube(2014) Huagong Xuebao/CIESC Journal, 65, pp. 88-94.
    26.Zhang, X.-B., Chen, J.-Y., Yao, L., Huang, Y.-H., Zhang, X.-J., Qiu, L.-M. Research and development of large-scale cryogenic air separation in china (2014) Journal of Zhejiang University: Science A, 15 (5), pp. 309-322.
    27.Zhang, X.B., Yao, L., Chen, J.Y., Zhang, W., Xiong, W., Zhang, X.J., Qiu, L.M.Prediction of the onset of flooding in an inclined tube at cryogenic temperatures (2014) Cryogenics, 61, pp. 98-106.
    28.Zhang, X., Chen, J., Gan, Z., Qiu, L., Yang, R., Ma, X. Additional mass due to moisture uptake of foam at 45 K(2014) Huagong Xuebao/CIESC Journal, 65 (4), pp. 1215-1220.
    29.Zhang, X., Zhang, W., Chen, J., Qiu, L., Sun, D. Validation of dynamic cavitation model for unsteady cavitating flow on NACA66 (2014) Science China Technological Sciences, 57 (4), pp. 819-827.
    30.Chen, J., Xu, L., Xiong, W., Qiu, L., Zhang, X. Experimental results of flooding experiments in an inclined tube with liquid nitrogen and its vapor(2014) Cryogenics, 62, pp. 1-6.
    31.Zhang, X.B., Chen, J.Y., Gan, Z.H., Qiu, L.M., Zhang, K.H., Yang, R.P., Ma, X.J., Liu, Z.H.Experimental study of moisture uptake of polyurethane foam subjected to a heat sink below 30 K(2014) Cryogenics, 59, pp. 1-6.

所获荣誉和奖励

    2023年 “卡尔·林德”青年学者奖 国际制冷学会
    首届全国能源动力类专业百篇优秀毕业论文 指导教师
    2017年教学竞赛二等奖
    第二届可再生能源科技竞赛三等奖 指导教师
    第三届可再生能源科技竞赛三等奖 指导教师