蔡涛

个人简历

出生年月：1993.02

任职年月：2023.05

职称：资格教授

所在学科：动力工程及工程热物理

导师：硕士生导师

最高学位：博士/新西兰坎特伯雷大学

学术任职：

1.第3届国际氨能会议大会分会场主席 (2023-2024)

2.《Frontiers in Energy Research》和《Frontiers in Chemistry》客座编辑

3.Energy、Fuel、Aerospace Science and Technology、International Journal of Hydrogen Energy、Combustion Science and Technology、International Journal of Aerospace Engineering、Thermal Science and Engineering Progress、Fuel Processing Technology等学术期刊论文审稿人。

联系方式：tao.cai@ujs.edu.cn

研究领域

1.零碳/低碳燃料高效清洁燃烧技术

2.燃烧热声不稳定形成机理及调控机制

3.新能源汽车动力电池先进热管理

4.微细尺度燃烧及微型动力系统

科研项目

1.非平衡等离子体激励下氨燃料燃烧热声不稳定特性及调控机制研究，江苏省自然科学基金青年项目，2024-2027，主持

2.二元氨燃烧热声不稳定形成特性及介质阻挡放电等离子体调控机制研究，中国博士后科学基金面上项目，2025-2027，主持

3.非贵金属燃料电池催化剂开发及运行控制，企业委托项目，2024-2026，主持

4.Rijke管氨燃烧热声振荡特性及调控机理研究，江苏大学高级人才科研启动基金，2023-2026，主持

主要论文

1.Tao Cai, Aikun Tang, et al., A systematic review of enhancing stabilization performance and mitigating thermoacoustic instability in renewable ammonia turbulent combustion. Renewable and Sustainable Energy Reviews 217 (2025): 115760.

2.Tao Cai, Aikun Tang, et al., Insights into ignition, flame propagation, and emission characteristics of ammonia/hydrogen combustion under intermediate-to-high temperatures and high pressures. Chemical Engineering Journal 526 (2025):171040.

3.Tao Cai, Aikun Tang, et al., Reduced mechanism identification and cool flame analysis of ammonia/dimethyl ether premixed combustion. Case Studies in Thermal Engineering 75 (2025) 107175.

4.Tao Cai, Aikun Tang, et al., Experimental evaluation and mechanism analysis of combustion performance enhancement in composite wall-assisted methane/air mixtures. Energy 313 (2024): 133944.

5.Aikun Tang, Tao Cai^*. Optimization and working performance analysis of liquid cooling plates in refrigerant direct cooling power battery systems. International Journal of Heat and Mass Transfer 231 (2024): 125899.

6.Tao Cai, Aikun Tang, et al., Experimental and kinetic analyses on the flame dynamics and stabilization of ammonia/hydrogen-air mixtures in a micro-planar combustor. Chemical Engineering Journal 477 (2023):147038.

7.Tao Cai, Dan Zhao, et al., Overview of fundamental kinetic mechanisms and emission mitigation in ammonia combustion. Chemical Engineering Journal 458 (2023):141391. (高被引&热点论文)

8.Tao Cai, Dan Zhao, et al., Removal and mechanism analysis of NOx emissions in carbon-free ammonia combustion systems with a secondary fuel injection. Fuel 344 (2023):128088. (高被引&热点论文)

9.Tao Cai, Dan Zhao. Overview of autoignition and flame propagation properties for ammonia combustion. AIAA Journal 61 (2023):1-25.

10.Tao Cai, Dan Zhao. Enhancing and assessing ammonia-air combustion performance by blending with dimethyl ether. Renewable and Sustainable Energy Reviews 156 (2022):112003. (高被引&热点论文)

11.Tao Cai, Dan Zhao, et al., Tailoring reduced mechanisms for predicting flame propagation and ignition characteristics in ammonia and ammonia/hydrogen mixtures. Energy 260 (2022):125090.

12.Tao Cai and Dan Zhao. Temperature dependence of laminar burning velocity in ammonia/ dimethyl ether-air premixed flames. Journal of Thermal Science 31.1 (2022):189-197.

13.Tao Cai, Dan Zhao, et al., NOx emission performance assessment on a perforated plate-implemented premixed ammonia-oxygen micro-combustion system. Chemical Engineering Journal 417 (2021):128033.

14.Tao Cai, Dan Zhao, et al., Evaluation of NOx emissions characteristics in a CO2-Free micro-power system by implementing a perforated plate. Renewable and Sustainable Energy Reviews 145 (2021):111150.

15.Tao Cai, Dan Zhao, et al., Optimizing thermal performance and exergy efficiency in hydrogen-fueled meso-combustors by applying a bluff-body. Journal of Cleaner Production 311 (2021): 127573.

16.Tao Cai, Dan Zhao, et al., Enhancing heat transfer performance analyses of a hydrogen-fueled meso-combustor with staggered bluff-bodies. Fuel Processing Technology 218 (2021):106867.

17.Tao Cai, Dan Zhao, et al., Mitigating NOx emissions from an ammonia-fueled micro-power system with a perforated plate implemented. Journal of Hazardous Materials 401 (2021):123848.

18.Tao Cai and Dan Zhao. Effects of fuel composition and wall thermal conductivity on thermal and NOx emission performances of an ammonia/hydrogen-oxygen micro-power system. Fuel Processing Technology 209 (2020):106527.

19.Tao Cai, Dan Zhao, et al., NOx emission and thermal performances studies on premixed ammonia-oxygen combustion in a CO2-free micro-planar combustor. Fuel 280 (2020):118554.

20.Tao Cai, Dan Zhao, et al., Bluff-body effect on thermal and NOx emission characteristics in a micro-planar combustor fueled with premixed ammonia-oxygen. Chemical Engineering and Processing-Process Intensification 153 (2020): 107979.

21.Tao Cai, Aikun Tang, et al., Flame dynamics and stability of premixed methane/air in micro-planar quartz combustors. Energy 193 (2020):116767.

22.Tao Cai, Aikun Tang, et al., Experimental observation and numerical study on flame structures, blowout limit and radiant efficiency of premixed methane/air in micro-scale planar combustors. Applied Thermal Engineering 158 (2019):113810.

23.Aikun Tang, Tao Cai, et al., Experimental study on flame structure transitions of premixed propane/air in micro-scale planar combustors. Energy 179 (2019): 558-570.

24.Aikun Tang, Tao Cai, et al., Numerical study on energy conversion performance of micro-thermophotovoltaic system adopting a heat recirculation micro-combustor. Fuel processing technology 180 (2018): 23-31.

25.Aikun Tang, Tao Cai, et al., Experimental investigation on combustion characteristics of premixed propane/air in a micro-planar heat recirculation combustor. Energy Conversion and Management 152 (2017): 65-71.

编著及参编主要教材专著

无

学术及科研成果

无

荣誉奖励

1.镇江市“金山英才”计划产业强市领军人才，2025年

2.入选全球前2%顶尖科学家榜单（2023、2024、2025年）

3.Journal of Thermal Sciences杂志封面论文，2025年

4.第五届江苏省大学生节能减排社会实践与科技竞赛三等奖（指导教师），2025年

5.第四届中国研究生“双碳”创新与创意大赛二等奖（第二指导教师）2025年

6.第17届大学生节能减排社会实践与科技竞赛三等奖（指导教师），2024年

7.第11届中国研究生能源装备创新设计大赛（第二指导教师）2024年

8.国家优秀自费留学生奖学金，2020年

专利

1. 蔡涛, 马显, 唐爱坤, 一种用于氨氢燃烧氮氧化物高效脱除的对冲式燃烧器, 中国，CN202511711433.2

其他

研究生招生：每年计划招收硕士研究生1-2名，欢迎报考！