姓名：陈奕
职称：副教授
通讯地址：厦门市集美区石鼓路9号
电子邮件：chenyi0511@126.com
一、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****
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
二、科研与学术工作经历
2021.02 -现在集美大学，机械与能源工程学院，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
三、研究方向
蒸发冷却技术
制冷空调设备的传热传质
建筑节能技术
四、近年来承担的主要研究项目
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，在研，主持
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，在研，主持
香港研究资助局，一般研究计划，UGC/RGC/**,一种用于中央空调系统能量回收的新型间接蒸发冷却器, 2019-06至2022-06，75万港币，在研，共同主持
香港高等教育科技学院，种子基金，SG**,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
五、近年来发表的代表性学术论文/专著：
[1]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。
[2]Chen, Y.*, Kahangamage, U., Zhou, Q., Chun Wah Leung. (2020). Can hydrogen enriched biogas be used as domestic fuel? - Part I – Thermal Characteristics of Blended Biogas/H₂Impinging Flames.HKIE Transactions. (In press)
[3] 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.
[4] 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.
[5] 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.
[6] 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.
[7]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.
[8] 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.
[9] 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.
[10]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.
[11]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.
[12] 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.
[13]Chen, Y., Yang, H.*, & Luo, Y. (2017). Parameter sensitivity analysis and configuration optimization of indirect evaporative cooler (IEC) considering condensation.Applied energy, 194, 440-453.
[14] 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.
[15]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.
[16]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.
[17]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.
[18]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.
[19]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.
六、荣誉奖励
2016年香港理工大学建造与环境工程学院优秀毕业论文奖第一名
2016年香港理工大学优秀博士论文
2018年Applied thermal engineering和Journal of building engineering优秀审稿人
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