陈奕

专业职务：系主任

电子邮件：chenyi0511@jmu.edu.cn

通讯地址：厦门市集美区石鼓路9号

教育背景

2013.08 - 2016.08 香港理工大学，屋宇设备工程系，博士

2016.02 - 2016.05 伊利诺伊大学厄巴纳-香槟分校，机械科学与工程，访问学者

2011.08 - 2013.07 哈尔滨工业大学，供热供燃气通风与空调工程，硕士

2007.09 - 2011.07 华中科技大学，建筑环境与设备工程，学士

工作履历

2021.02 – 至今 集美大学，海洋装备与机械工程学院，副教授

2019.08 - 2021.02 香港理工大学专业及持续教育学院，机械工程，讲师

2017.05 - 2019.08 香港高等教育科技学院，屋宇设备工程，讲师

2016.09 - 2017.05 香港理工大学，屋宇设备工程系，博士后

教学工作简介

教授本科生课程：《空调工程》（32学时）、《空气调节》（40学时）

《制冷空调节能技术》（24学时）

研究生课程：《建筑节能技术》（32学时）

科研工作简介

研究方向包括：蒸发冷却技术、除湿技术、制冷空调系统节能技术、动力电车热管理技术。

欢迎建筑环境与能源应用工程、能源与动力工程、机械工程专业背景的同学报考研究生。

主持科研项目

1. 国家自然科学基金，青年科学基金，52308096，导湿纤维型间接蒸发冷却器热湿传递机理及优化调控研究，2024-01至2026-12-31，30万，在研，主持

2. 福建省科技厅，福建省自然科学基金，2021J05165，船舶用转轮与蒸发冷却复合空调系统的特性与优化研究，2021-11至2024-11，6万，已结题，主持

3. 香港研究资助局，教员发展计划，UGC/FDS24/E03/20，一种紧凑的干燥增强型蒸发冷却系统的理论研究和控制方案开发，2021-01至2023-12，89万港币，已结题，PI

4. 香港研究资助局, 优配研究金, UGC/RGC/15200420, 适用于空调系统能量回收技术的新型多孔铝材间接蒸发冷却系统的理论与实验研究, 2021-01至2023-12, 87万港币, 已结题，Co-I

5. 香港研究资助局，优配研究金，UGC/RGC/15213219, 一种用于中央空调系统能量回收的新型间接蒸发冷却器, 2020-01至2022-12，75万港币，已结题，Co-I

6. 香港理工大学专业与持续教育学院，校内研究项目，SEHS-2020-190(I)，立式管式间接蒸发冷却器的热性能研究，2020-11至2021-11，4万港币，已结题，主持

7. 香港高等教育科技学院，种子基金，SG1718106，用于间接蒸发冷却器的新型控制器开发，2018-06至2019-06，8万港币，已结题，主持

论文与专利

1. Zhang, Y., Chen, Y.^*, Yang, H., Zhang, H. & Leung, W. (2025). Experimental performance investigation on a desiccant-assisted two-stage evaporative cooling system in hot and humid areas, Applied Energy, 377, Part D, 124704.

2. Chen, Y., Liu, L., Yan, H., Tao, Q., Fan, Y. (2024). Study of a nano-coated hydrophilic polymer for indirect evaporative cooler from wetting, thermal and corrosion resistance performance, Applied Thermal Engineering, 257, Part A, 124180.

3. Chen, Y., Yan, H.^* & Pan, Y. (2023). Wetting and evaporative performance analysis of wet channels in indirect evaporative cooler with hydrophilic nano-coating, Applied Thermal Engineering, 229, 120622.

4. Chen, Y., Yan, H.^* & Min, Y. (2023). Visualized study of wetting enhancement and thermal performance of fiber-coated indirect evaporative cooler, Applied Thermal Engineering, 217, 119231.

5. Zhang, Y., Zhang, H., Yang, H., Chen, Y.^*, Leung, C. (2022). Counter-crossflow indirect evaporative cooling-assisted liquid desiccant dehumidifier: Model development and parameter analysis, Applied Thermal Engineering, 217, 119231.

6. Yan, H., Chen, Y.*, Min, Y. & Pan, Y. (2022). An adaptive controller based dynamic simulation of household air-conditioner with indirect evaporative cooler as dedicated outdoor air system, Energy and Buildings, 274, 112454.

7.  Yan, H., Chen, Y.*, & Min, Y. (2022). Performance analysis of small-scale direct expansion air conditioning system with indirect evaporative cooler as dedicated ventilator. Building and Environment, 208, 108603.

8. Chen, Y., Huang. X., Sun, T.^*, & Chu, J. (2021). Experimental Study of Plant Fiber-Polymer Composite for Indirect Evaporative Cooler Application. Applied Thermal Engineering, 199, 117543.

9. Chen, Y.*, Kahangamage, U., Zhou, Q., Chun Wah Leung. (2021). Can hydrogen enriched biogas be used as domestic fuel? - Part I – Thermal Characteristics of Blended Biogas/H₂ Impinging Flames. HKIE Transactions, 28(2), 59-66.

10. Sun, T., Huang, X., Qu, Y., Wang, F., & Chen, Y*. (2020). Theoretical and Experimental study on Heat and Mass Transfer of A Porous Ceramic Tube Type Indirect Evaporative Cooler. Applied Thermal Engineering, 173, 115211.

11. Min, Y., Chen, Y.*, Yang, H.*, & Guo, C. (2020). Characteristics of primary air condensation in indirect evaporative cooler: Theoretical analysis and visualized validation. Building and Environment, 174, 106783.

12. Sun, T., Huang, X., Chen, Y.*, & Zhang, H. (2020). Experimental investigation of water spraying in an indirect evaporative cooler from nozzle type and spray strategy perspectives. Energy and Buildings, 214, 109871.

13. Min, Y., Chen, Y.*, & Yang, H*. (2019). A statistical modeling approach on the performance prediction of indirect evaporative cooling energy recovery systems. Applied Energy, 255, 113832.

14. Chen, Y., Yan, H.*, Luo, Y., & Yang, H. (2019). A proportional–integral (PI) law based variable speed technology for temperature control in indirect evaporative cooling system. Applied Energy, 251, 113390.

15. Yan, H., Chen, Y.*, & Zhang, W. (2019). Year round based optimization of high-low control in regenerative indirect evaporative cooler (RIEC). Science and Technology for the Built Environment, 2004, 1-18.

16. Min, Y., Chen, Y.*, & Yang, H*. (2019). Numerical study on indirect evaporative coolers considering condensation: A thorough comparison between cross flow and counter flow. International Journal of Heat and Mass Transfer, 131, 472-486.

17. Chen, Y., Yan, H., & Yang, H*. (2018). Comparative study of on-off control and novel high- low control of regenerative indirect evaporative cooler (RIEC). Applied energy, 225, 233-243.

18. Chen, Y., Yang, H.*, & Luo, Y. (2018). Investigation on solar assisted liquid desiccant dehumidifier and evaporative cooling system for fresh air treatment. Energy, 143, 114-127.

19. Wang, F., Sun, T., Huang, X., Chen, Y.*, & Yang, H. (2017). Experimental research on a novel porous ceramic tube type indirect evaporative cooler. Applied Thermal Engineering, 125, 1191-1199.

20. Chen, Y., Yang, H.*, & Luo, Y. (2017). Parameter sensitivity analysis and configuration optimization of indirectevaporative cooler (IEC) considering condensation. Applied energy, 194, 440-453.

21.  Luo, Y., Chen, Y.*, Yang, H., & Wang, Y*. (2017). Study on an internally-cooled liquid desiccant dehumidifier with CFD model. Applied energy, 194, 399-409.

22. Chen, Y., Luo, Y., & Yang, H*. (2016). An optimization method for design and operation of combined cooling, heating, and power systems toward a smart grid. Science and Technology for the Built Environment, 22(6), 766-782.

23. Chen, Y., Zhang, T., Yang, H.*, & Peng, J. (2016). Study on energy and economic benefits of converting a combined heating and power system to a tri-generation system for sewage treatment plants in subtropical area. Applied Thermal Engineering, 94, 24-39.

24. Chen, Y., Yang, H.*, & Luo, Y. (2016). Experimental study of plate type air cooler performances under four operating modes. Building and Environment, 104, 296-310.

25. Chen, Y., Yang, H. *, & Luo, Y. (2016). Indirect evaporative cooler considering condensation from primary air:Model development and parameter analysis. Building and Environment, 95, 330-345.

26. Chen, Y., Luo, Y., & Yang, H*. (2015). A simplified analytical model for indirect evaporative cooling considering condensation from fresh air: Development and application. Energy and Buildings, 108, 387-400.

27. 陈奕,刘礼卿,严华夏,等.一种亲水降膜内微肋管蒸发式冷凝器: CN 118960248 B.

28. 陈奕,刘礼卿,严华夏,等.一种自汲水紧凑型蒸发冷凝器: CN 119042843 B.

专著

空调系统能量回收新技术-间接蒸发冷却原理与应用。著议者:杨洪兴,郭春梅,陈奕,吕建,

中国建筑工业出版社。

奖励与荣誉

2016年香港理工大学优秀博士论文

2019年日内瓦发明奖金奖：高效热量回收间接蒸发冷却器

2019年香港绿色创新大奖：高效热量回收间接蒸发冷却器

2020年香港理工大学专业与持续教育学院院长杰出研究奖-2019/20年度学术表现

2021年福建省高层次人才C类

2022年厦门市高层次人才C类

2022厦门高层次留学人才

2023年嘉源奖教金

人才培养

2022届、2023届本科优秀毕业论文（设计）指导老师

校级大创立项5项

学术兼职

暖通空调产业技术创新联盟青年学术委员会委员

Applied energy, Building and environment, Energy and buildings, Applied thermal engineering,

International journal of refrigeration等多个国际期刊审稿人