党超
博士 、副教授 、动力系副主任
基本信息
| 办公电话: | 电子邮件: chdang@bjtu.edu.cn |
| 通讯地址:北京市海淀区上园村3号北京交通大学 | 邮编:100044 |
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
2019.7—2021.6 北京交通大学 师资博士后
研究方向
- 微机电系统与能源技术装备
- 航天动力工程
- 热流科学与清洁能源利用
- 清洁能源技术与热管理
招生专业
- 动力工程及工程热物理硕士
- 能源动力硕士
- 机械工程博士
- 动力工程博士
科研项目
自然科学横向项目: 冷板结构优化设计, 2025-2025
国家自然科学基金“面上”: 受限空间内CO2混合气体吸收过程气液相间传质机理与调控机制研究, 2025-2028
自然科学横向项目: 冷板式相变液冷服务器项目产品开发, 2024-2026
基础研究项目: 受限空间内CO2混合气体吸收过程气液相间传质机理研究, 2024-2026
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
自然科学横向项目: XJD-DL-3课题相变试验及拟合, 2024-2025
横向项目: 热仿真分析, 2023-2025
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
国家级纵向项目: 复杂电子系统的新型相变热管理技术基础研究, 2022-2024
自然科学类人才基金项目: 铜基多孔材料强化低沸点工质沸腾传热机理研究, 2022-2024
铁路总公司(原铁道部)(不再新立项): 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
自然科学横向项目: “碳达峰碳中和”目标行动方案编制项目, 2021-2025
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
基础研究项目: 非共沸混合工质微通道环状流液膜蒸发研究, 2020-2022
自然科学横向项目: 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
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
通讯/一作论文:
[1] Xiaoyi Su, Li Jia, Chao Dang*, Yong Ding, Zhoujian An. Bidirectionally coupled multiphysics modeling of SOFCs: Start-up acceleration, wave-channel advantages, and dynamic responses. International Journal of Thermal Sciences, 2026, 225: 110735.
[2] 苏小益, 党超*, 马非, 贾洪伟, 胡艳鑫. 波纹通道固体氧化物燃料电池多物理场耦合数值模拟. 汽车工程, 2026, 48(2): 421-432.
[3] Yida Shen, Bin Dong, Quan Ma, Chao Dang*, Congjian Li*, Guojian Ren, Shaozhan Wang, Xiaozhe Sun, Yong Ding. Study on flow and heat characteristics of compressible gas in a supersonic nozzle based on PINNs with sparse data. Frontiers in Heat and Mass Transfer, 2025, 23(4): 1215-1242.
[4] Xiaozhe Sun, Chao Dang*, Hongwei Jia, Yida Shen, Ye Liu. Dynamics of Taylor bubble formation in a small-scale flow focusing microchannel with an acute symmetrical inlet geometry. Chemical Engineering Science, 2025, 305: 121141.
[5] Xiaoyi Su, Li Jia, Chao Dang*, Qianlong Wanng*. Analysis of the thermal-electric performance of the solid oxide fuel cell with a zigzag channel under different operating conditions. Fuel Cells, 2025, 25(3), e70010.
[6] Ying Zhang, Chao Dang*, Zhiqiang Zhang. Experimental study on flow boiling characteristics of Low-GWP fluid R1234yf in microchannels heat sink. Frontiers in Heat and Mass Transfer, 2025, 23(4): 1215-1242.
[7] Zongyu Jie, Chao Dang*, Qingliang Meng. A review of pressure drop characteristics and optimization measures of two-Phase flow with low boiling point working fluids in microchannels. Frontiers in Heat and Mass Transfer, 2025, 23(4), 1053-1089.
[8] 党超, 李昊, 王小伟, 贾力*. 离子刻蚀法铜基异形微结构表面加工及润湿特性研究. 工程热物理学报, 2025, 56(3): 938-944.
[9] Chao Dang*, Xiaowei Wang, Qi Peng, Xiaohan Sun. Study of the rolling wetting behavior of droplets on surfaces with T-shaped microstructures. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 701: 134902.
[10] Yida Shen, Chao Dang*, Xiaozhe Sun, Linqi Cao, Yongxin Zhang*. Numerical investigation on Taylor bubble mass transfer in microchannel based on CO2 gas with the consideration of gas compressibility. Chemical Engineering Science, 2024, 298, 120410.
[11] Zhifeng Chen, Shuo Wang, Chao Dang*, Liaofei Yin, Honglei Ren. Optimal distribution of the fin structures in a phase change material module for battery thermal management. Journal of Energy Storage, 2024, 99: 113194.
[12] Honglei Ren, Chao Dang*, Liaofei Yin, Zhifeng Chen. Optimization research on battery thermal management system based on PCM and mini-channel cooling plates. Case Studies in Thermal Engineering, 2024, 53: 103880.
[13] Chao Dang*, Xiaowei Wang, Hao Li, Liaofei Yin, Mengjie Song. Study on droplet wettability of low surface tension working medium based on special-shaped microstructure surface. Colloids and Surfaces C: Environmental Aspects, 2024, 2: 100035.
[14] Chao Dang*, Ruiqi Min, Lingyun Pan, Liaofei Yin, Zhiqiang Zhang, Yanxin Hu. Saturated pool boiling heat transfer enhancement of R245fa based on the surface covered by sintered copper powder with and without nanostructure. International Journal of Thermal Sciences, 2023, 187: 108183.
[15] 孙小涵, 党超*, 王小伟. 异形微结构表面润湿特性数值研究. 表面技术, 2023, 52(12): 160-168.
[16] 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, 2022, 37: 102223.
[17] 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, 2022, 43(2), 472-478.
[18] 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, 2021, 179: 121740.
[19] 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, 2021, 65(1): 128-136.
[20] 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, 2020, 148: 119038.
[21] 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, 2019, 64(23), 2450-2462.
[22] Chao Dang, Li Jia*, Qi Peng, Liaofei Yin, Zhuoling 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, 2018, 127: 758-768.
[23] 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, 2018, 119: 508-522.
[24] Chao Dang, Li Jia*, Xuan Zhang, Qian Huang, Mingchen Xu. Experimental investigation on flow boiling characteristics of zeotropic binary mixtures (R134a/R245fa) in a rectangular micro-channel. International Journal of Heat and Mass Transfer, 2017, 115: 782-794.
[25] 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, 2017, 104: 351-361.
[26] Chao Dang, Li Jia*, Qianyi Lu. Investigation on thermal design of a rack with the pulsating heat pipe for cooling CPUs. Applied Thermal Engineering, 2017, 110: 390-398.
[27] 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, 2017, 38(6): 1327-1332.
[28] 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, 2016, 25(6): 532-541.
重要合作论文:
[1] Jia Wang, Tao Yang, Zhirong Huang, Chao Dang, Hongwei Jia*. Multicomponent droplet evaporation dynamics: A mass-conserving CFD framework with ALE. International Journal of Thermal Sciences, 2025, 225: 110791.
[2] 王少展, 李聪健, 陈鹏飞, 董宾*, 党超, 贾洪伟. 前体/进气道耦合加热装置设计与仿真验证. 燃气涡轮试验与研究, 2025, 38(3): 88-98.
[3] Zhirong Huang, Hongwei Jia* Chao Dang, Liaofei Yin, Ke Zhong, Yanming Kang, and Li Jia*. Evaporation and Deposition Behavior of Surrogate Respiratory Sessile Droplets: Influence of Substrate Wettability and Solute Effect. Langmuir, 2025, 41(47): 32177-32190.
[4] Zhixin Zeng, Xian An, Changbo Peng, Xianzhen Ruan, Zhiping Song, Chao Dang, Zhoujian An*. Study on the thermal runaway behavior and mechanism of 18650 lithium-ion battery induced by external short circuit. Applied Thermal Engineering, 2025, 258, 124569.
[5] Xianzhen Ruan, Zhiping Song, Bo Feng, Changbo Peng*, Chao Dang*, Shandong Xie, Baomin Dai*. Eco-friendly combined heating and cooling system integrated with solar photovoltaic and energy storage: Thermodynamic performance and carbon emission evaluation. Case Studies in Thermal Engineering, 2025, 71: 106132.
[6] Changbo Peng, Zhixin Zeng, Chao Dang*, Zhiping Song, Xinhai Li, MinghuiWang, Baomin Dai*. Energy and environmental performance analysis of solar-assisted heat pump drying system using natural working fluid carbon dioxide. Drying Technology, 2025, 43: 771-783.
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