丁涛 清华大学航空发动机研究院试验测试与计算中心副主任/助理研究员
邮箱:dingtaohang01@163.com
地址:北京市海淀区清华大学蒙民伟科技大楼N808
教育背景
2018/09-2021/07,清华大学,航天航空学院(动力工程及工程热物理),博士
2014/09-2017/04,清华大学,航天航空学院(动力工程及工程热物理),硕士
2010/09-2014/08,清华大学,航天航空学院(工程力学与航天航空工程),学士
工作履历
2024/02至今,清华大学航空发动机研究院,助理研究员
2021/07-2023/12,清华大学航空发动机研究院,博士后
研究领域
1)航空发动机极端热环境背景下的陶瓷基复合材料渗流发汗主动冷却机理研究
2)基于发汗冷却效率提升的梯度孔隙结构陶瓷基复合材料编织方法设计与研究
3)高温热电偶耙结构建模、快速温度预测模型开发与测温误差修正研究
4)基于重力式环路热管的管内流动沸腾换热机理
研究概况
长期从事航空发动机极端热环境背景下热防护与热管理问题,包括陶瓷基复合材料渗流发汗主动冷却机理、跨尺度管内流动沸腾换热机理研究等。先后承担和作为核心骨干参与国家自然科学基金、基础加强计划技术领域基金、国家重点研发计划、博士后科学基金、航天航空研究院所委托项目等课题10余项。迄今为止在国内外权威期刊和国内外会议发表学术论文52篇,其中 SCI 收录34篇;授权国家发明专利5项。参加国际/国内学术会议并做特邀/邀请/分组会议口头报告8次,包括第八届传热传质青年学术会议特邀报告,航空运载工程领域青年学者论坛邀请报告,第五届多尺度热物理模拟国际会议邀请报告等。
主要科研项目:
[1] 2024,基础加强计划技术领域基金,XXXX铰链机构的梯度结构设计研究,联合主持人(纵向课题)
[2] 2024,跨域飞行交叉技术实验室开放课题,基于XXX发动机XXX研究,主持人(纵向课题)
[3] 2023,国家自然科学基金青年科学基金项目C类(原青年基金),陶瓷基复合材料火焰筒表面发汗渗流及冷却机理研究,主持人(纵向课题)
[4] 2021,博士后科学基金面上项目,基于氨工质的发动机空气预冷管道多相换热特性研究,主持人(纵向课题)
[5] 2025,中国航发北京航空材料研究院,小试样高温原位疲劳试验,主持人(横向课题)
[6] 2024,中国航发沈阳发动机研究所,基于氨介质的SOFC(固体氧化物燃料电池)及混合动力系统桌面级验证研究,主持人(横向课题)
[7] 2024,中国航发北京航空材料研究院,高温合金高温变形损伤机制分析,主持人(横向课题)
[8] 2022,中国航发上海商发,高温热电偶受感部测温误差修正,主持人(横向课题)
会议报告:
[1] (Invited Lecture) Research on geometric modeling methodology and pore-scale flow simulation for 2D plain-woven SiCf/SiC ceramic matrix composites during the transpiration cooling process, The 5th International Symposium on Multiscale Simulations of Thermophysics, Heifei,China, 2025-09-26至2025-09-28
[2] (特邀报告)航发燃烧室陶瓷基复合材料发汗冷却研究, 第八届传热传质青年学术论坛, 山东省青岛市, 2025-04-04至2025-04-06
[3] (邀请报告)陶瓷基复合材料发汗冷却研究, 2025航空发动机材料专题交流会, 四川省成都市, 2025-12-26至2025-12-26
[4] (邀请报告)用于航空发动机热管理的氨工质高效相变热沉利用研究, 航空运载工程领域青年学者论坛, 陕西省西安市, 2023-12-20至2023-12-22
奖励与荣誉
2021年获得清华大学水木学者人才计划支持
学术兼职
Applied Thermal Engineering,Applied Energy,Energy,Renewable and Sustainable Energy Reviews,International Journal of Refrigeration,Thermal Science and Engineering Progress,Case Studies in Thermal Engineering,Energy and Buildings等国际知名SCI期刊审稿人
学术成果
代表性研究论文(5篇)
[1] Tao Ding, Shiyu Qian, Hua Zhou, Hainan Zhang, Xiaoxuan Chen, Weigang Ma. Design and fabrication of high-permeability plain-woven ceramic matrix composites: Experimental and numerical investigation on flow and heat transfer characteristics, International Journal of Heat and Mass Transfer, 2026, 260: 128399.
[2] Tao Ding, Xiaoxuan Chen, Ziyong Li, Haichao Liu, Chaoyi Zhu, Tian Zhao, Zhen Li, Yi Zhang, Jianan Yang, Hainan Zhang, Lingyun Hou. A review of flow boiling heat transfer: Theories, new methods and emerging applications [J]. Renewable and Sustainable Energy Reviews. 2025, 215:115615.
[3] Tao Ding, Xiaoxuan Chen, Chaoyi Zhu, Tian Zhao, Jingyi Yan, Zanjun Gao, Hainan Zhang, Zhen Li. Two-phase flow boiling characteristics in the evaporator of a loop thermosiphon: pressure drop and void fraction modelling analysis [J]. Applied Thermal Engineering. 2025, 279:127846.
[4] Tao Ding, Xiaoxuan Chen, Ling Zhao, Hainan Zhang, Tian Zhao, Chaoyi Zhu, Shiyu Qian, Lingyun Hou, Yi Zhang, Litong Zhang. Pore distribution and permeability principles for carbon fiber reinforced silicon carbide matrix composites with three-dimensional needled preform during the transpiration cooling process [J]. International Journal of Heat and Fluid Flow. 2025, 114:109799.
[5] Shiyu Qian, Ling Zhao, Xiaoxuan Chen, Lingyun Hou*, Yi Zhang, Tao Ding*. Transpiration cooling of three-dimensional needle-punched Cf/SiC ceramic-matrix composites in a blunt-shaped head [J]. Aerospace Science and Technology. 2026, 176:112101.
其他研究论文(仅列举一作和通讯作者SCI论文)
[6] Rui Lv, Zhuolin Li, Yucong Wei, Fang Ye, Chuchu Guo*, Laifei Cheng*, Tao Ding*. BN interface in SiC/SiC composites: A review on structural characteristics, service failure mechanisms, and optimization strategies [J]. Journal of Materials Research and Technology. 2026, 40:763-789.
[7] Xiaoxuan Chen, Xinyi Wang, Lu Wang, Hong Zheng, Tao Ding*, Zhen Li*. Multistage data center cooling system for temperature gradation and matching [J]. Applied Energy. 2025, 377:124592.
[8] Xuanchen Xiong, Guangda Guo, Laifei Cheng*, Tao Ding*, Xinyuan Lv*. Ceramic matrix composite additive manufacturing: Defect formation, inheritance, and inhibition [J]. Journal of Alloys and Compounds. 2025, 1047:184973.
[9] Chuchu Guo, Hao Feng, Laifei Cheng*, Tao Ding*, Fang Ye. Process design and characterization of SiC composites reinforced by SiC nanowires [J]. Ceramics International. 2025, 51:42201-42210.
[10] Tao Ding, Xiaoxuan Chen, Tian Zhao, Chaoyi Zhu, Hainan Zhang, Zhen Li. Experimental research on boiling heat transfer mechanism of a pump-driven loop thermosiphon for R134a coolant [J]. International Journal of Heat and Fluid Flow. 2024, 107:109424.
[11] Xiaoxuan Chen, Tao Ding, Hanwen Cao, Hongqing Ding, Zhen Li. Flow boiling heat transfer mechanisms and flow characteristics of pump-driven two-phase flow systems used in data center cooling [J]. Applied Thermal Engineering. 2023, 220:119642. (共同一作)
[12] Tao Ding, Xiaoxuan Chen, Hanwen Cao, Zhiguang He, Jianmin Wang, Zhen Li. Principles of loop thermosyphon and its application in data center cooling systems: A review [J]. Renewable and Sustainable Energy Reviews. 2021, 150:111389.
[13] Tao Ding, Han wen Cao, Zhi guang He, Jun da Wu, Zhen Li. Experimental study on a loop thermosyphon cooling system in data centers using CO2 as a working Fluid, especially thermal environment and energy-saving effect [J]. Applied Thermal Engineering. 2020, 175:115359.
[14] Tao Ding, Hanwen Cao, Zhiguang He, Zhen Li. Experimental investigations of the influence factors for the boiling heat transfer characteristics of R134a coolant in a loop thermosiphon system [J]. International Journal of Refrigeration. 2020, 115:182-190.
[15] Tao Ding, Jian min Wang, Chun Ou yang, Han wen Cao, Zhi guang He, Zhen Li. Comparison work about different empirical formulas for the boiling heat transfer coefficient in separated heat pipe system [J]. International Journal of Low-Carbon Technologies. 2019, 14:103-107.
[16] Hanwen Cao, Tao Ding, Zhiguang He, Zhen Li. Research on the refrigerant column height in the downcomer of a two-phase loop thermosyphon [J]. International Journal of Refrigeration. 2018, 94:40-48.(共同一作)
[17] Tao Ding, Han wen Cao, Zhi guang He, Zhen Li. Visualization experiment on boiling heat transfer and flow characteristics in separated heat pipe system [J]. Experimental Thermal and Fluid Science. 2018, 91:423-431.
[18] Tao Ding, Han wen Cao, Zhi guang He, Zhen Li. Experiment research on influence factors of the separated heat pipe system, especially the filling ratio and Freon types [J]. Applied Thermal Engineering. 2017, 118:357-364.(共同一作)
[19] Tao Ding, Han Wen Cao, Zhi Guang He, Zhen Li. Boiling heat transfer characteristics of the R744 coolant in the evaporator of the separated heat pipe system [J]. International Journal of Heat and Mass Transfer. 2017, 113:1254-1264.
[20] Tao Ding, Zhen Li. Research on convection heat transfer character of super critical carbon dioxide flows inside horizontal tube [J]. International Journal of Heat and Mass Transfer. 2016, 92:665-674.
[21] Tao Ding, Zhi guang He, Tian Hao, Zhen Li. Application of separated heat pipe system in data center cooling [J]. Applied Thermal Engineering. 2016, 109:207-216.
发明专利
[1] 丁涛,马维刚,陈晓轩,基于梯度原位自生孔隙结构的陶瓷基复合材料航空发动机火焰筒发汗冷却方法,2025-11-28,中国, ZL202511775752.X.(已授权)
[2] 丁涛;张悦;陈晓轩;侯凌云;钱世语,应用于航空发动机的陶瓷基复合材料平纹编织预制体骨架的参数调节方法,2025-11-28,中国,ZL 2025 1 1775758.7.(已授权)
[3] 丁涛,陈晓轩,李震,基于红外光谱吸收特性的流场可视化观察方法及装置,2024-09-10,中国,ZL202411262066.8.(已授权)
[4] 丁涛,李震,陈晓轩,朱超逸,用于竖直管道两相流进出口压力差的测量装置及方法,2024-05-21,中国,ZL202410633931.9.(已授权)
[5] 李震,张晓跃,吴俊达,丁涛,用于烟气余热和水分回收的烟气处理系统,2018-12-06,中国,ZL201811489951.4.(已授权)
