国内外学术会议报告：

[36] 崔鑫. 负压环境膜式蒸发冷却器的理论与实验研究. 第24届全国暖通空调制冷学术年会“蒸发冷却空调”专题交流会, 2024-10-21至2024-10-25, 湖州.

[35] 崔鑫. 中空纤维膜式蒸发冷却器的热湿调控特性研究. 2024数据中心冷却高峰论坛（大湾区）“蒸发冷却和间接蒸发冷却技术”分论坛, 2024-03-11至2024-03-12, 广州.

[34] 崔鑫. 基于膜材料的蒸发冷却技术理论与应用研究. 2023年“CSC学友汇”暨哈尔滨工业大学第一届未来英才创新荟, 2023-12-17至2023-12-18, 哈尔滨工业大学.

[33] 崔鑫. 中空纤维膜基蒸发水冷器的多目标优化：冷却性能与能效的提升. 第四届“一带一路”可持续制冷与空调国际研讨会, 2023-12-15至2023-12-16, 泉州.

[32] Liu, Y H, Yan W C , Yang C J , Zhang Y , He C W, Cui X*, Jin L W.Performance Analysis of Photovoltaic Façade with Evaporative Cooling Ventilated Cavity. International Conference on Sustainable Energy and Green Technology 2023 (SEGT 2023), 10-13 December 2023, Ho Chih Minh City, Vietnam

[31] Yan WC, Cui X*, Meng X*, Yang CJ, Liu YH, Jin LW. Multi-objective optimization of a dew point indirect evaporative cooler for data centers. International Conference on Sustainable Energy and Green Technology 2023 (SEGT 2023), 10-13 December 2023, Ho Chih Minh City, Vietnam.

[30] Yan W, Cui X*, Meng X*, Yang C, Liu Y, Jin L. Multi-objective optimization of a hollow fiber membrane integrated water cooler using response surface method and genetic algorithm. The 13th International Symposium on Heating, Ventilation and Air Conditioning, ISHVAC 2023, Nov.14-16, 2023, Beijing, China.

[29] 崔鑫. 基于自然冷源扩展的数据中心冷却系统气候适应性分析. (第三届华人能源与人工环境国际学术会议, 上海, 29/07 - 31/07, 2023).

[28] 闫伟超，崔鑫*，孟祥兆* ，杨传钧，刘亦琳，金立文. 基于中空纤维膜的液冷器的冷却性能研究. (第三届华人能源与人工环境国际学术会议, 上海, 29/07 - 31/07, 2023).

[27] Chuanjun Yang, Xinyu Wang, Weichao Yan, Xin Cui*. Climatic Applicability of Indirect Evaporative Cooling Technology for Data Centers in China. (BUILDING SIMULATION 2023, 4th-6th September, Shanghai, China).

[26] Cui X. Fundamentals and Applications of Energy Efficient Evaporative Cooling Technology. Energies Webinar: Research Advances in Cooling and Dehumidification, 17 Nov 2022, Online. (Invited Speakers).

[25] Yan WC, Thiam HS, Meng XZ*, Liu YL, Cui X*. Experimental and numerical investigation of a counter-flow hollow fiber membrane-based evaporative cooler. IOP Conference Series: Earth and Environmental Science 2022;1074:012017. (The 2022 AUA Academic Conference on Sustainable Energy and Green Technology (AUA-SEGT 2022) 20/02/2022 - 23/02/2022 Online).

[24] Liu YL, Su JC, Cui X, Yan WC, Li N, Jin LW. Multiple-factor analysis of dehumidification performance and flow resistance for the cross-flow membrane module based on orthogonal test. IOP Conference Series: Earth and Environmental Science 2022;1074. (The 2022 AUA Academic Conference on Sustainable Energy and Green Technology (AUA-SEGT 2022) 20/02/2022 - 23/02/2022 Online).

[23] Weichao Yan, Xin Cui*, Yilin Liu, Liwen Jin and Xiangzhao Meng*. Effect of Random Packing of Fibers on Evaporative Cooling Performance of Counterflow Hollow Fiber Membrane Modules. CUE2022-The 8th Applied Energy Symposium: Low carbon cities and urban energy systems, NOV 24-27, 2022 in MATSUE, JAPAN/ONLINE.

[22] Chuanjun Yang, Xinyu Wang, Weichao Yan and Xin Cui*. Applicability analysis of indirect evaporative cooling technology for data centers in China. CUE2022-The 8th Applied Energy Symposium: Low carbon cities and urban energy systems, NOV 24-27, 2022 in MATSUE, JAPAN/ONLINE.

[21] Yan W, Cui X*, Liu Y, Tian C, Jin Oh S, Wang X, Jin L*. Optimization of design parameters of hollow fiber membrane integrated into direct evaporative cooling based on orthogonal test. (the 12th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2021), November 24 to 26,2021Virtual (Seoul, Korea)).

[20] Yan W, Cui X*, Liu Y, Meng X, Tian C, Wang X, Jin L*. Regression model of a counter-flow evaporative cooler based on hollow fiber membranes. International Conference on Applied Energy 2021 (ICAE2021), Nov. 29 - Dec. 2, 2021, in Bangkok, Thailand.

[19] 闫伟超, 崔鑫*，刘亦琳，田成成，王馨雨，金立文*. 基于中空纤维膜的半直接蒸发冷却器设计参数优化研究. 第二届华人能源与人工环境国际学术会议, 2021-07-16至2021-07-19, 成都.

[18] Liu YL, Su JC, Cui X*, Zhang SC, Meng XZ, Jin LW*. Nanoparticles filled PVA/PVDF hollow fiber membrane towards enhanced performance for air dehumidification. IOP Conference Series: Earth and Environmental Science 2020;463:012096. (International Conference on Sustainable Energy and Green Technology SEGT 2019).

[17] Yan W, Cui X*, Yang X, Jin L*, Meng X. Performance evaluation of a direct evaporative cooling system with hollow fiber-based heat exchanger. IOP Conference Series: Earth and Environmental Science 2020;463:012023. (International Conference on Sustainable Energy and Green Technology SEGT 2019).

[16] 崔鑫. 间接蒸发冷却复合空调系统在热带潮湿环境的特性研究. 2019 中国制冷学会学术年会(CAR2019), 12/11-15/11, 2019, 厦门.

[15] Cui X*, Sun L, Yan W, Zhang S, Jin L, Meng X. Studying the Performance of an Indirect Evaporative Pre-cooling System in Humid Tropical Climates. Environmental Science and Engineering, Springer Singapore; 2020, p. 463–70. (Proceedings of the 11th lnternational Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2019)).

[14] Cui X*, Yang X, Jin L, Meng X. Studying the performance of an evaporative pre-cooled air conditioning system in humid tropical climate. Applied Energy Symposium 2019: Low carbon cities and urban energy systems, CUE 2019, October 16-18, 2019, Xiamen, China.

[13] Yan W, Cui X*, Jin L, Meng X. Numerical investigation on the hollow fiber membrane-based evaporative cooling system. Applied Energy Symposium 2019: Low carbon cities and urban energy systems, CUE 2019, October 16-18, 2019, Xiamen, China.

[12] Liu YL, Wei YY, Cao Y, Cui X, Jin LW, Zhang LY, Zhang LY*, Su JC*. Development of robust energy-efficient membrane dehumidifier for indoor air humidity control. IOP Conference Series: Earth and Environmental Science 2019;268:012146. (International Conference on Sustainable Energy and Green Technology SEGT 2018)

[11] Cui X, Jia G, Liu Y, Zhang S, Jin L*, Meng X. Performance analysis of a counter-flow indirect evaporative cooling system. IOP Conference Series: Earth and Environmental Science 2019;268:012145. (International Conference on Sustainable Energy and Green Technology SEGT 2018)

[10] Niu Z, Yu J, Cui X, Yang X*, Sun Y, Yan J. Experimental investigations on the thermal energy storage performance of shell and tube unit with composite phase change materials. Energy Procedia 2019;158:4889–96. (10th International Conference on Applied Energy (ICAE2018), 22-25 August 2018, Hong Kong,China)

[9] Cui X, Liu Y, Liu Y, Jin L, Zhao M, Meng X*. Studying the performance of a liquid desiccant indirect evaporative cooling system. Energy Procedia 2019;158:5659–65. (10th International Conference on Applied Energy (ICAE2018), 22-25 August 2018, Hong Kong,China)

[8] Cui X, Yang X, Qin S, Meng X, Jin L*, Chua KJ. Performance investigation of an evaporative pre-cooled air-conditioning system in tropics. Energy Procedia 2019;158:5673–8. (10th International Conference on Applied Energy (ICAE2018), 22-25 August 2018, Hong Kong,China)

[7] Bai Q, Guo Z, Cui X, Yang X*, Yanhua L, Jin L*, et al. Experimental investigation on the solidification rate of water in open-cell metal foam with copper fins. Energy Procedia 2018;152:210–4. (CUE2018-Applied Energy Symposium and Forum 2018: Low carbon cities andurban energy systems, 5-7 June 2018, Shanghai, China)

[6] Cui X, Tian W, Yang X, Kong Q, Chai Y, Jin L. Experimental study on a cross-flow regenerative indirect evaporative cooling system. Energy Procedia 2018;152:395–400. (CUE2018-Applied Energy Symposium and Forum 2018: Low carbon cities andurban energy systems, 5-7 June 2018, Shanghai, China)

[5] Cui X, Mohan B, Islam MR, Chou SK, Chua KJ. Investigation on a combined air treatment process for air-conditioning system. Energy Procedia 2017;142:1874–9. (9th International Conference on Applied Energy, ICAE2017, 21-24 August 2017, Cardiff, UK)

[4] Cui X, Mohan B, Islam MR, Chou SK, Chua KJ*. Energy saving potential of an air treatment system for improved building indoor air quality in Singapore. Energy Procedia 2017;143:283–8. (World Engineers Summit - Applied Energy Symposium & Forum: Lw Carbon Cities & UrbanEnergy Joint Conference, WES-CUE 2017,19-21 July 2017, Singapore)

[3] Cui X, Mohan B, Islam MR, Chua KJ*. Modelling and performance evaluation of an air handling unit for an air treatment system with regulated outdoor-air fraction. Energy Procedia 2017;105:4718–23. (The 8th International Conference on Applied Energy -ICAE2016)

[2] Mohan B, Cui X, Chua KJ. Development of chemical reaction kinetics of VOC ozonation. Procedia Engineering 2017;180:1372–8. (International High- Performance Built Environment Conference - A Sustainable BuiltEnvironment Conference 2016 Series (SBE16),iHBE 2016)

[1] Cui X, Chua KJ, Yang WM. Use of indirect evaporative cooling as pre-cooling unit in humid tropical climate: An energy saving technique. Energy Procedia 2014;61:176–9. (The 6thInternational Conference on Applied Energy -ICAE2014)