蔡亮

制冷与建筑环境系教授,博导
碳中和科学技术研究院执行院长

通讯方式:cailiang@seu.edu.cn 025-52090267 13951907157

研究方向:

1、碳中和战略发展规划

2、综合能源管理

3、多孔介质传热传质

4、建筑节能

办公地点:振动中心202

 

 

个人简介

蔡亮:1973年9月出生,男,博士,教授,博士生导师现任东南大学碳中和科学技术研究院执行院长,中国环境科学学会特邀理事,江苏省制冷学会常务理事。主要从事碳中和战略发展规划、综合能源管理、多孔介质传热传质、建筑节能等方面的研究与教学工作。先后获得江苏省教学成果二等奖1项、教育部技术发明二等奖1项,江苏省科技进步二等奖3项,江苏省科技进步三等奖1项、中国制冷学会一等奖1项。在核心刊物和重要学术会议上发表学术论文100余篇。

教学课程

本科生课程: 《工程热力学》、《认识实习》


科研 教改项目

1. 技术开发:田湾核电站1、2号机组2022年环吊轨道自动测量装置研发服务,主持,2022.12-2024.11

2. 技术服务:田湾核电站1391型主泵止推轴瓦可靠性及使用寿命提升可行性研究服务,主持,2022.06-2023.06

3. 技术咨询:苏州市碳达峰行动方案及碳中和路径,主持,2022.06-2022.11

4. 技术咨询:南京市碳达峰及碳中和目标及路径,主持,2022.06-2022.10

5. 技术服务:燃煤火电生物质耦合发电,主持,2022.05-2023.5

6. 技术咨询:梅山钢铁净零排放路径,主持,2022.05-2023.6

7. 技术服务:低碳减排与经济高质量发展的协同创新研究,主持,2022.02-2025.02

8. 中国工程院中国工程科技发展战略江苏研究院咨询研究(重大)项目:碳中和下江苏省能源结构调整的路径和对策,参与,2022.01-2022.12

9. 技术咨询:无锡市碳达峰、碳中和领域立法论证,主持,2021.12-2021.09

10. 技术开发:基于中压紫外线的循环水杀菌系统项目合同,主持,2021.12-2023.07

11. 国家重点研发:分布式生物质气化-流化床燃料电池热电联供关键技术及示范,主持(子课题),2020.12-2023.11

12. 技术服务:2021年无锡本部新吴区电力用户碳排放监测方法及应用咨询服务,主持,2021.10-2021.12

13. 技术咨询:南京市“十四五”低碳发展规划,主持,2021.04-2021.07

14. 国家重点研发:工业建筑围护结构节能与低品位热能利用技术研究,主持(子课题),2018.07-2021.06

15. 技术开发:分布式小容量电蒸汽锅炉熔盐储热系统研究开发,主持,2018.09-2019.09

16. 国家重点研发:间歇模式下集散式供暖空调系统构建与优化运行关键技术研发,参与,2016.06-2020.06

17. 国家自然科学基金:物油重质组分链式循环反应制氢及协同减排二氧化碳的基础研究,参与,2015.06-2019.03

18. 国家重大研究计划重点项目:甲醇制烯烃过程中介尺度催化剂积碳机理及调控机制研究,参与,2014.01-2017.12

19. 国家自然科学基金:纳米颗粒在氨水溶液降膜发生中热质传递特性分析与研究,参与,2012.01-2015.12

论文 专著

SCI:

Zhang X, Cai L, Liang Y, et al. Experimental studies on absorption-compression hybrid refrigeration system using 1, 1, 1, 2-tetrafluoroethane/tetraethylene glycol dimethyl ether as working pair[J]. Applied Thermal Engineering, 2023: 120001.

 

Zhang X, Cai L, Chen T, et al. Performance analysis of a novel compression-assisted absorption power and refrigeration system with selected 1, 1-difluoroethane/ionic liquid[J]. Journal of Cleaner Production, 2022, 340: 130856.

 

Liang Y, Zhang X, Cai L. Thermal analysis of high-temperature proton exchange membrane fuel cell integrated compression-assisted absorption heat pump system[J]. International Journal of Refrigeration, 2022.

 

Ma H, Cai N, Cai L, et al. Effects of the forced convection induced by assistant fans on the thermal performance of an indirect dry cooling system[J]. Case Studies in Thermal Engineering, 2022, 35: 102141.

 

Ma H, Cai L, Si F. Numerical study on the effects of layout compactness of the annular-aligned moist media on thermo-hydraulic performance of an indirect dry cooling tower[J]. Applied Thermal Engineering, 2022, 213: 118649.

 

Zhang X, Cai L, Chen T, et al. Vapor-liquid equilibrium measurements and assessments of Low-GWP absorption working pairs (R32+ DMETEG, R152a+ DMETEG, and R161+ DMETEG) for absorption refrigeration systems[J]. Energy, 2021, 224: 120082.

 

Mao Y, Guo W, Cai L, et al. Numerical simulation of the pressure distribution in the ventilating channels with a mixed flow fan[J]. International Communications in Heat and Mass Transfer, 2022, 135: 106105.

 

Chen T, Cai L, Wen X, et al. Experimental research and energy consumption analysis on the economic performance of a hybrid-power gas engine heat pump with LiFePO4 battery[J]. Energy, 2021, 214: 118913.

 

Mao Y, Pu W, Cai L, et al. Numerical simulation of the particle-wall collision strength and swirling effect on the performance of the axial flow cyclone separator[J]. International Journal of Chemical Reactor Engineering, 2021, 19(10): 1009-1022.

 

Ma H, Cai L, Si F, et al. Exploratory research on annular-arranged moist media to improve cooling capacity of natural draft dry cooling tower and thermo-flow characteristics of its radiators[J]. International Journal of Heat and Mass Transfer, 2021, 172: 121123.

 

Xu X, Cai L, Chen T, et al. Analysis and optimization of a natural gas multi-stage expansion plant integrated with a gas engine-driven heat pump[J]. Energy, 2021, 236: 121321.

 

Chen T, Cai L, Ma X, et al. Modeling and matching performance of a hybrid-power gas engine heat pump system with continuously variable transmission[C]//Building Simulation. Tsinghua University Press, 2019, 12: 273-283.

 

Zhang X, Cai L, Chen T. Energetic and exergetic investigations of hybrid configurations in an absorption refrigeration chiller by aspen plus[J]. Processes, 2019, 7(9): 609.

 

Ma X, Cai L, Meng Q, et al. Dynamic optimal control and economic analysis of a coaxial parallel-type hybrid power gas engine-driven heat pump[J]. Applied Thermal Engineering, 2018, 131: 607-620.

 

Wan X, Cai L, Yan J, et al. Power management strategy for a parallel hybrid-power gas engine heat pump system[J]. Applied Thermal Engineering, 2017, 110: 234-243.

 

Chen T, Cai L, Wan X, et al. Modeling and dynamic energy management control of hybrid-power gas engine heat pump system[J]. Applied Thermal Engineering, 2017, 121: 585-594.

 

Ji W, Cai L, Meng Q, et al. Research on the drive system and logic threshold control strategy of the hybrid power gas engine heat pump[C]//Building Simulation. Tsinghua University Press, 2016, 9: 165-173.

 

Ji W, Cai L, Meng Q, et al. Experimental research and performance study of a coaxial hybrid-power gas engine heat pump system based on LiFePO4 battery[J]. Energy and Buildings, 2016, 113: 1-8.

 

Jiang W, Cai L, Wang J, et al. Simulation and validation of a hybrid-power gas engine heat pump[J]. International journal of refrigeration, 2015, 50: 114-126.

 

Meng Q, Cai L, Ji W, et al. Energy management of a hybrid-power gas engine-driven heat pump[J]. Energies, 2015, 8(10): 11254-11275.

 

Wang Y, Cai L, Yu Y, et al. Performance study of parallel-type hybrid-power gas engine-driven heat pump system[J]. Energy and Buildings, 2013, 62: 37-44.

 

Wang J, Cai L, Wang Y, et al. Modeling and optimization matching on drive system of a coaxial parallel-type hybrid-power gas engine heat pump[J]. Energy, 2013, 55: 1196-1204.

 

Wang Y, Cai L, Shao X, et al. Analysis on energy-saving effect and environmental benefit of a novel hybrid-power gas engine heat pump[J]. International Journal of Refrigeration, 2013, 36(1): 237-246.

 



专利申请

1. 蔡亮,毛衍钦,郭万军,李超杰,王晓月,詹志行. 一种高压管网压力能回收系统[P].发明专利(授权),CN113389607B,2022-06-07.


2. 蔡亮,李同,张潇,张汇婷. 一种搭配压缩机的吸收式制冷系统[P].发明专利(授权),CN113294928B,2022-05-10.


3. 蔡亮,徐啸,陈涛. 一种天然气压力能制冷系统[P].发明专利(授权),CN110375454B,2021-05-11.


4. 蔡亮,徐啸,陈涛. 一种压缩空气能制冷空调系统[P].发明专利(授权), CN110375455B,2021-05-11.


5. 蔡亮,张潇,陈丽萍,徐啸,乔静宜. 储能型吸收式可调节供暖及供冷系统[P]. 发明专利(授权),CN109340953B,2020-12-11.


6. 蔡亮,陈丽萍,张潇,徐啸,乔静宜. 一种多热源余热回收系统[P]. 发明专利(授权),CN109099743B,2020-06-30.


7. 蔡亮,陈涛,马晓凡,张小松. 一种多能源燃气热泵供热系统[P].发明专利(授权),CN107504717B,2019-11-22.



荣誉 奖励

1. 江苏省教学成果二等奖(高等教育类):一体两翼、多维支撑、全链条浸润的能源动力类一流人才培养改革实践,6,江苏省教育厅,2022.03


2. 科学技术进步一等奖:低碳智慧建筑区域能源关键技术装备及集成应用,5,中国制冷学会,2021.08


3. 科技进步奖二等奖:建筑一体化太阳能光伏光热复合系统及关键技术研究和应用,9,江苏省政府,2010.02.09


4. 技术发明二等奖:新型太阳能溶液除湿制冷空调系统的构建与关键技术研究,5,中华人民共和国教育部,2009.01.20


5. 科技进步奖二等奖:基于溶液独立除湿的新型节能空调系统研发,5,江苏省政府,2009.01.07


6. 科技进步奖三等奖:制冷空调测控与特殊人工环境营造关键技术研究及应用,3,江苏省政府,2007.01.01


7. 科技进步奖二等奖:新型热泵空调机组关键技术与装置的研发及系统节能优化,4,江苏省政府,2004.12.01


指导学生

博士生(在读):

李祖强,2022.9-

马振西,2021.3-

毛衍钦,2020.9-

张  潇,2019.3-,硕转博


硕士生(在读):

吴金雨,2022.9 -

李泓宇,2022.9 -

梁  伟, 2022.9 -

孟可欣,2022.9 -,东蒙

唐若诗,2021.9-

程嘉煜,2021.9-

范雪晴,2021.9-

孔令玺,2020.9-

高候畅,2020.9-

王慧敏,2020.9-

梁  语, 2020.9-