党超

基本信息

教育背景

2014.09 - 2019.6 北京交通大学机电学院 工学博士

2017.12—2018.6 日本东京大学 访问学者

2010.09 - 2014.6 天津商业大学 工学学士

工作经历

2023.1—至今 北京交通大学机电学院 副教授

2021.7—2022.12 北京交通大学机电学院 讲师

研究方向

• 机械工程
• 热能工程

招生专业

• 动力工程及工程热物理硕士
• 机械工程硕士

科研项目

• 红果园国家级“科技委”: 某项目涡轮专题分承包合同（北交大）-航空发动机热端部件“智能”热防护关键技术研究, 2022-2025
• 国家重点研发计划-任务: 混合循环发电系统模拟仿真与能量管控技术, 2023-2026
• 北京交通大学: XJD-DL-3课题相变试验及拟合, 2024-2025
• 红果园(横): 热仿真分析, 2023-2024
• 北京市科委: 首都信息服务数据中心低碳运行技术研究及示范课题, 2023-2026
• 红果园国家级"四总部": 复杂电子系统分布式热源的新型相变热管理技术基础研究-J, 2022-2024
• 红果园国家级"四总部": 复杂电子系统分布式热源的新型相变热管理技术基础研究-Z, 2022-2024
• 红果园国家级"四总部": 复杂电子系统分布式热源的新型相变热管理技术基础研究, 2022-2024
• 基于混合动力列车的锂离子电池热管理机制基础研究
• 数据中心机柜新型复合热管理技术基础研究
• 北京交通大学: 能源计量器具配置和管理规范 热泵系统, 2023-2024
• 北京交通大学: 具有梯度结构吸液芯的均热板传热特性研究, 2023-2023
• 北京交通大学: 节能技术与碳中和课程开发, 2022-2022
• 铜基多孔材料强化低沸点工质沸腾传热机理研究
• 铁路总公司（原铁道部）: 多源制机车热保障系统技术研究, 2022-2023
• 国家自然科学基金"青年基金": 微通道内非共沸混合工质薄层液膜受限蒸发机理研究, 2022-2024
• 北京交通大学: “碳达峰碳中和”目标行动方案编制项目, 2021-2023
• 北京市自然基金“青年”: 非共沸混合工质微通道环状流液膜蒸发机理研究, 2021-2022
• 国家自然科学基金“重点”: 低表面能工质润湿特性及调控机制基础研究, 2021-2025
• 国家重点研发计划-参加校外: 低碳社区，建筑清洁能源冷热电联供关键技术及示范, 2020-2023
• 非共沸混合工质微通道环状流液膜蒸发研究
• 北京交通大学: 北京市中小学生节能和资源循环利用实践教育基地布局规划研究, 2019-2021
• 其它: 基于人工空穴技术的低表面能工质沸腾传热强化机理研究, 2019-2021
• 红果园(横): 环路热管可视化模拟件研制, 2019-2022
• 其他部市(2020.10起仅限省部级科技计划\基金\专项): 非共沸混合工质流动沸腾液膜蒸发模型及实验验证, 2019-2021

教学工作

研究生课程：《电子设备热管理》

本科生课程：《工程热力学》、《工程经济》

论文/期刊

一作/通讯论文：

[1] Chao Dang, Lingyun Pan, Ruiqi Min, Liaofei Yin^*, Yi Ding, Hongwei Jia. Experimental study on saturation pool boiling heat transfer characteristics of R245fa on the surface covered by sintered copper powder. Case Studies in Thermal Engineering 37 (2022) 102223.

[2] Chao Dang, Yi Ding, Zhuoling Qi, Liaofei Yin, Li Jia^*. Experimental investigation of saturated nucleate pool boiling heat transfer characteristics of R245fa on a copper foam covered surface. International Journal of Heat and Mass Transfer 179 (2021) 121740.

[3] 党超^†, 丁艺^†, 贾力^*, 彭启. 微气流作用下多孔表面液滴动态润湿行为. 科学通报 66 (2021) 128-136.

[4] Chao Dang, Li Jia^*, Qi Peng, Liaofei Yin, Zhuoling Qi. Comparative study of flow boiling heat transfer and pressure drop of HFE-7000 in continuous and segmented microchannels. International Journal of Heat and Mass Transfer 148 (2020) 119038.

[5] 党超, 贾力^*, 杞卓琳, 彭启. 通道结构强化微通道流动沸腾流动与传热. 科学通报 64 (2019) 2450-2462.

[6] Chao Dang, Li Jia^*, Qi Peng, Liaofei Yin, Zhuolin Qi. Experimental study on flow boiling heat transfer for pure and zeotropic refrigerants in multi-microchannels with segmented configurations. International Journal of Heat and Mass Transfer 127 (2018) 758-768.

[7] Chao Dang, Li Jia^*, Qi Peng, Qian Huang, Xuan Zhang. Experimental and analytical study on nucleate pool boiling heat transfer of R134a/R245fa zeotropic mixtures. International Journal of Heat and Mass Transfer 119 (2018) 508-522.

[8] Chao Dang, Li Jia^*, Xuan Zhang, Qian Huang, Mingchen Xu. Experimental investigation on flow boiling vharacteristics of zeotropic binary mixtures (R134a/R245fa) in a rectangular micro-channel. International Journal of Heat and Mass Transfer 115 (2017) 782-794.

[9] Chao Dang, Li Jia^*, Qianyi Lu. Investigation on thermal design of a rack with the pulsating heat pipe for cooling CPUs. Applied Thermal Engineering 110 (2017) 390-398.

[10] Chao Dang, Li Jia^*, Mingchen Xu, Qian Huang, Qi Peng. Experimental study on flow boiling characteristics of pure refrigerant (R134a) and zeotropic mixture (R407C) in a rectangular micro-channel. International Journal of Heat and Mass Transfer 104 (2017) 351-361.

[11]  党超, 贾力^*, 黄浅. 矩形微槽道内R134a流动沸腾换热特性的实验研究. 工程热物理学报 38 (2017) 1327-1332.

[12]  Chao Dang, Li Jia^*, Lixin Yang. Effects of acoustic barriers and crosswind on the operating performance of evaporative cooling tower groups. Journal of Thermal Science 25 (2016) 532-541.

[13]  颜俏, 党超^*, 贾力. 基于流动沸腾传热机理的分段式微通道结构优化研究. 工程热物理学报 43 (2022) 472-478.

[14]  Honglei Ren, Li Jia^*, Chao Dang^*, Chengliang Yang, Hongyang Jia, Junjie Liu. Experimental investigation on pouch lithium-ion battery thermal management with mini-channels cooling plate based on heat generation characteristic. Journal of Thermal Science (2022).

合作论文：

[1] Xiaowei Wang, Li Jia, Chao Dang. The wetting transition of low surface tension droplet on the special-shaped microstructure surface. Colloid and Interface Science Communications 50 (2022) 100649.

[2] Zhuoling Qi, Li Jia^*, Chao Dang, Yongxin Zhang. Liquid mass transfer characteristics of zeotropic mixtures of R134a/R245fa during flow boiling in a rectangular channel. International Journal of Heat and Mass Transfer 187 (2022) 122551.

[3] Yongxin Zhang, Li Jia^*, Chao Dang, Zhuoling Qi. Measurements of the liquid film thickness for annular flow during flow condensation in a circular tube. International Journal of Heat and Mass Transfer 187 (2022) 122552.

[4] Honglei Ren, Li Jia^*, Chao Dang, Zhuoling Qi. An electrochemical-thermal coupling model for heat generation analysis of prismatic lithium battery. The Journal of Energy Storage 50 (2022) 104277.

[5] Yongxin Zhang, Li Jia^*, Chao Dang, Yong Ding, Qi Peng. Experimental investigation on flow condensation characteristics of binary mixture in a rectangular micro-channel. International Communications in Heat and Mass Transfer 123 (2021) 105195.

[6] Zhuo Cui, Dou Huang, Chao Dang, Li Jia^⁎. Pressure drop in sintered wicks with spherical or irregular particles. Powder Technology 384 (2021) 494-504.

[7] Yongxin Zhang, Li Jia^*, Chao Dang, Liaofei Yin. Heat and mass transfer research on flow condensation of binary zeotropic mixtures in rectangular micro-channel. Heat Transfer Research 52 (2021) 75-95.

[8] Ce Liu, Li Jia^*, Chao Dang, Cui Zhuo. Effect of liquid-vapor separation on the thermal-hydraulic performance of an air-cooled condenser. Journal of Enhanced Heat Transfer 28 (2021) 63-90.

[9] Qi Peng, Li Jia^*, Yi Ding, Chao Dang, Liaofei Yin, Xiao Yan. Influence of groove orientation on dropwise condensation on hydrophobic and hierarchical superhydrophobic surfaces with microgroove arrays. International Communications in Heat and Mass Transfer 112 (2020) 104492.

[10] Zhuoling Qi, Chao Dang, Li Jia^*, Yongxin Zhang. Analytical Investigation on heat and mass transfer of R134a/R245fa zeotropic mixture in the liquid film evaporation process. Heat Transfer Research 51 (2020) 1587-1608.

[11] Qi Peng, Li Jia^*, Jian Guo, Chao Dang, Yi Ding, Liaofei Yin, Qiao Yan. Forced jumping and coalescence-induced sweeping enhanced the dropwise condensation on hierarchically microgrooved superhydrophobic surface. Applied Physics Letters 114 (2019) 133106.

[12]  Yongxin Zhang, Li Jia^*, Yong Ding, Chao Dang. Analytical model for the condensation heat and mass transfer characteristics of binary zeotropic mixtures. International Journal of Heat and Mass Transfer 142 (2019) 118487.

[13]  Qi Peng, Li Jia^*, Chao Dang, Zhoujian An, Yongxin Zhang, Liaofei Yin. Analysis of droplet dynamic behavior and condensation heat transfer characteristics on rectangular microgrooved surface with CuO nanostructures. International Journal of Heat and Mass Transfer 130 (2019) 1096-1107.

[14] Ce Liu, Li Jia^*, Xuan Zhang, Chao Dang. Analysis of the heat transfer characteristics of the liquid-vapor separation condenser based on a condensate growth model in horizontal tube. Applied Thermal Engineering 163 (2019) 114307.

[15] Xuan Zhang, Li Jia^*, Qi Peng, Chao Dang. Experimental study of condensation heat transfer in a condenser with a liquid-vapor separator. Applied Thermal Engineering 152 (2019) 196-203.

[16] 崔卓, 贾力^*, 黄豆, 党超. 矩形微槽道平板热管流动与传热特性可视化. 科学通报 64 (2019) 1-10.

[17]  Xuejiao Li, Li Jia^*, Chao Dang, Zhoujian An, QianHuang. Effect of flow instability on flow boiling friction pressure drop in parallel micro-channels. International Communications in Heat and Mass Transfer 97 (2018) 64-71.

[18]  Zhoujian An, Li Jia^*, Liting Wei, Chao Dang, Qi Peng. Investigation on lithium-ion battery electrochemical and thermal characteristic based on electrochemical-thermal coupled model. Applied Thermal Engineering 137 (2018) 792-807.

[19]  Qi Peng, Li Jia^*, Chao Dang, Xuan Zhang, Qian Huang. Experimental investigation on flow condensation of R141b with CuO nanoparticles in a vertical circular tube. Applied Thermal Engineering 129 (2018) 812-821.

[20]  Xuejiao Li, Li Jia^*, Chao Dang, Zhoujian An, Qian Huang. Visualization of R134a flow boiling in micro-channels to establish a novel bubbly-slug flow transition criterion. Experimental Thermal and Fluid Science 91 (2018) 230-244.

[21]  Qian Huang, Li Jia^*, Chao Dang, Lixin Yang. Experimental study on flow boiling of deionized water in a horizontal long small channel. Journal of Thermal Science 27 (2018) 157-166.

[22]  Xuan Zhang, Li Jia^*, Chao Dang, Qi Peng. Visualization investigation on flowing condensation in horizontal small channels with liquid separator. Journal of Thermal Science 27 (2018) 48-54.

[23]  杞卓玲, 贾力^*, 党超. 微细通道内非共沸工质流动沸腾换热实验研究. 工程热物理学报 9 (2018) 2005-2011.

[24]  徐静静, 江婷, 宋洪涛, 党超, 贾力^*. 楼宇分布式能源楼顶流场与温度场分析. 工程热物理学报 39 (2018) 1-7.

[25]  徐静静, 江婷, 宋洪涛, 党超, 贾力^*. 冷却塔外复杂流场的数值模拟与实验研究. 热科学与技术 17 (2018) 1-9.

[26]  安周建, 贾力^*, 杨成亮, 党超, 许茗宸. 锂离子动力电池液体冷却实验研究. 中国科学院大学学报 35 (2018) 254-260.

[27]  Zhoujian An, Li Jia^*, Yong Ding, Chao Dang, Xuejiao Li. A review on lithium-ion power battery thermal management technologies and thermal safety. Journal of Thermal Science 26 (2017) 1-22.

[28]  Mingchen Xu, Li Jia^*, Chao Dang, Qi Peng. The effect of heating direction on flow boiling heat transfer of R134a in microchannels. Journal of Thermal Science 26 (2017) 166-174.

[29]  刘斌^*, 李鹏, 党超, 李橙. 具有Na₂C0₃·10H₂0相变材料的太阳能混合墙体的烟囱效应. 太阳能学报 37 (2016) 1868-1875.

[30]  范亚坤, 贾力^*, 党超. 气液分离式管内凝结冷凝器的实验研究. 北京交通大学学报 40 (2016) 115-121.

[31]  Bin Liu^*, Xiaoyan Ma, Xiaolin Wang, Chao Dang, Qingwei Wang, Rachid Bennacer. Experimental study of the chimney effect in a solar hybrid double wall. Solar Energy 115 (2015) 1-9.

专著/译著

专利

软件著作权

获奖与荣誉

北京市科学技术协会2021-2023年度青年人才托举工程

北京交通大学优秀博士学位论文奖

第十五届北京青年优秀科技论文奖

第十五届全国大学生节能减排社会实践与科技竞赛 三等奖 （指导教师）

第十四届全国大学生节能减排社会实践与科技竞赛 三等奖 （指导教师）

社会兼职

中国工程热物理学会会员

北京机械工程学会会员

国内外多个学术期刊审稿人