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个人简介Personal Profile
蔡姗姗,副教授,博士生导师。主要从事电热氢综合能源系统、燃料电池技术、制冷空调建筑节能技术相关研究。国际PHI认证被动式建筑设计师,中国硅酸盐学会绝热材料分会理事,中国地源热泵产业联盟青年委员会委员,湖北省“科技副总”,湖北省土木建筑学会地源热泵专业委员会委员,武汉制冷学会青年委员会主任委员,STBE等国际期刊评委会委员,美国采暖、制冷及空调工程师学会(ASHRAE)成员,国际地源热泵学会(IGSHPA)成员,美国金钥匙荣誉协会会员。现有SCI、EI及会议论文六十余篇,研究成果被美国著名传热学教材《Heat and Mass Transfer - Fundamentals and Applications》引用(第五版第十四章),以第一发明人身份申请发明专利二十余项(已授权十项),软著三项,主编行业标准一项,参编研究生教材一部,获全国高校教师自制实验教学仪器设备创新大赛三等奖、“全国暖通空调杰出青年”、ICPRE“青年科学家奖”、rabey雷竞技教学竞赛一等奖、教学质量优秀奖二等奖、实验技术研究项目二等奖(两次)、“大学生创新创业优秀指导老师”、“我最喜爱的教师班主任”、“优秀教师班主任”(两次),指导本科生、研究生多次荣获国家级奖学金、优秀毕业设计及全国大学生节能减排、制冷空调行业相关科创活动奖项。主讲《工程传热学》(全英文)、《制冷、低温实验》、《Geothermal energy》(全英文)等专业课程。(更新于2025年5月)
研究方向:
电热氢综合能源系统及燃料电池技术
超低能耗建筑节能技术
空调室内热湿环境调控与热舒适评价
制冷空调设备优化与设计软件开发
科研项目:
[1] 国家自然科学基金项目:燃料电池冷-热-湿-电联供系统多能转换机制与柔性控制方法(主持)
[2] 国家自然科学基金项目:基于有机绝热材料微结构的热湿传递机理及保冷性能研究(主持)
[3] 国家重点研发计划子课题(“氢能技术”重点专项):面向氨-燃料电池-内燃机混合发电系统的余热回收强化与增效利用技术(主持)
[4] 国家重点研发计划子课题(“氢能技术”重点专项):用户侧燃料电池微网热电综合利用与示范(主持)
[5] 广东省重点研发计划课题:金属双极板流道的高效热质传输特性与优化设计技术(主持)
[6] 湖北省自然科学基金项目:基于电渗透除湿的地源热泵空调系统运行机理研究(主持)
[7] 国家重点实验室研究项目:基于数据驱动方法的非稳态热环境的房间热舒适预测与评价(主持)
[8] 企业产学研项目:用户侧燃料电池微网综合利用与示范系统-氢电热综合能量管理平台系统试制(主持)
[9] 企业产学研项目:基于全屋场景家中空调房间气流组织及热舒适仿真研究(主持)
[10] 企业产学研项目:空调房间气流组织仿真平台(主持)
[11] 企业产学研项目:家用空调器及相关产品制冷技术顾问项目(主持)
[12] 企业产学研项目:双碳战略背景下绿色智能交通装备系统(主持)
[13] 企业产学研项目:空调器换热部件关键结构优化技术与系统仿真平台建设研究(骨干)
[14] 企业产学研项目:空调换热器小管径替代技术(骨干)
[15] 国际合作项目(美国EPSIA):聚苯乙烯绝热材料的热湿传递机理与建筑规范的适用性探究(主持)
SCI论文:
[1] Hua, Z., Wu, J., Tang, J., Cao, X., Xu, J., Cai, S.*, Tu, Z. Advanced multi-recovery techniques for enhancing efficiency in hydrogen fuel cell-based energy systems: An empirical study. Energy Conversion and Management, 2025, 341:120004.
[2] Wu, J., Hua, Z., Cao, X., Tang, J., Cai, S.*, Tu, Z. Dynamic performance of an innovative multi-port heat recovery in megawatt-class PEM fuel cell cogeneration system. Applied Energy, 2025, 393:126135.
[3] Cai, S., Li, R., Xu, S., Zhang, R., Xiao, B., Tu, Z. Innovative isomorphic metal bipolar plates for enhanced flow uniformity in high-power density fuel cells. International Journal of Hydrogen Energy, 2025.
[4] Cai, S., Yang, J., Hua, Z., Li, S., Pei, H., Tu, Z. Energy-exergy-emergy optimization analysis designed for combined cooling and power systems driven by proton-exchange membrane fuel cell. Energy, 2025, 329:136407.
[5] Cai, S., Yang, L., Yang, J., Li, S., Pei, H., Tu, Z. Regulating of a hybrid system using ammonia-reformed hydrogen for a proton exchange membrane fuel cell integrated with an internal combustion engine: A large-scale power supply scenario. Energy Conversion and Management, 2025, 327:119559.
[6] Hua, Z., Cai, S.*, Xu, H., Li, S., Tu, Z. Investigating the performance of adsorption chiller operating under fluctuating heat-source conditions. Case Studies in Thermal Engineering, 2025, 68:105903.
[7] Liu, X., Zhu, T., Wei, Z., Cai, S.**, Long, R., Liu, Z. Performance analysis of a novel solar-to-hydrogen system with energy storage via machine learning and particle swarm optimization. Energy, 2025, 315:134380.
[8] Wei, Q., Cai, S.**, Li, S., Guan Y., Tu, Z. Experimental study of performance enhancement in PEMEC with titanium mesh flow structure via in-situ temperature measurement. International Journal of Hydrogen Energy, 2024, 94:87-96.
[9] Pei, H., Liu, Z., Chen, J., Sun, L., Wang, B., Xing, L., Cai, S.**, Tu, Z. Dynamic response study of air-cooled proton exchange membrane fuel cell stack. Progress in Natural Science-Materials International, 2024, 34:1318-1326.
[10] Hua, Z., Cai, S.*, Xu, H., Yuan, W., Li, S., Tu, Z. Investigations of Silica/MOF composite coating and its dehumidification performance on a desiccant-coated heat exchanger. Energy, 2024, 307:132576.
[11] Cai, S., Li, X., Yang, L., Hua, Z., Li, S., Tu, Z. Demand flexibility and its impact on a PEM fuel cell-based integrated energy supply system with humidity control. Renewable Energy, 2024, 228:120600.
[12] Liu, Z., Cai, S.*, Tu, Z., Chan, S. Recent development in degradation mechanisms of proton exchange membrane fuel cells for vehicle applications: problems, progress, and perspectives. Energy Storage and Savings, 2024, 3:106-152.
[13] Liu, Z., Pei, H., Sun, L., Wang, B., Xing, L., Tu, Z., Cai, S. Design of a novel multizone cooling system for performance improvement in proton exchange membrane fuel cell. Applied Thermal Engineering, 2024, 257:124307.
[14] Cai, S., Hua, Z., Dai, M., Li, S., Luo, X., Tu, Z. Performance analysis of adsorption refrigeration using a composite adsorbent with improved heat and mass transfer. International Journal of Heat and Mass Transfer, 2023, 216:124523.
[15] Cai, S., Wang, W., Zou, Y., Li, S., Luo, X., Tu, Z. Performance and sustainability assessment of PEMFC/solar-driven CCP systems with different energy storage devices. Energy, 2023, 278:127863.
[16] Cai, S., Hua, Z., Dai, M., Li, S., Luo, X., Tu, Z. Investigation of stepwise porosity and perforated fins in finned tube adsorption bed for adsorption refrigeration. Applied Thermal Engineering, 2023, 229:120587.
[17] Cai, S.*, Liu, Z., Li, X., Xu, H., Xia, L., Cremaschi, L. Impacts of liquid phase distribution on the effective thermal conductivity of closed-cell thermal insulation. International Journal of Thermal Sciences, 2023, 190:108280.
[18] Cai, S., Xu, H., Zou, Y., Li, S., Luo, X., Tu, Z., Chan, S. Operation characteristics and performance analysis of integrated power and hybrid cooling systems driven by PEM fuel cell. International Journal of Hydrogen Energy, 2023, 48:13276-13293.
[19] Zhao, S., He, L., Wu, X., Xu, G., Xie, J., Cai, S.* Evaluation of thermal comfort in air-conditioned rooms based on structure/control-related parameters and data-mining method. International Journal of Air-Conditioning and Refrigeration, 2023.
[20] 李旭, 李若琳, 蔡姗姗*, 罗小兵, 涂正凯. 柔性调控对燃料电池冷热电湿联供系统的影响研究, 工程热物理学报, 2023.
[21] 王文莉, 吴俊鸿, 崔松林, 单联瑜, 蔡姗姗*, 谢军龙. 小管径翅片管式家用空调蒸发器的流路结构混合优化. 工程热物理学报, 2023.
[22] Peng, G., Wu, J., Shan, L., Wang, R., Wang, We., Cai, S.* Xie, J. Thermal management of the passenger compartment in electric vehicles. 7th International Conference on Power and Renewable Energy (ICPRE). 2022. (EI)
[23] Cai, S., Sun, X., Li, X., Li, S., Xue, X. Simulation study on the electro-osmotic characteristic of a dehumidification fin. Science and Technology for the Built Environment. 2022, 28:985-998.
[24] Zhao, J., Cai, S., Luo, X., Tu, Z. Multi-stack coupled energy management strategy of a PEMFC based-CCHP system applied to data centers. International Journal of Hydrogen Energy. 2022, 47(37):16597.
[25] Cai, S., Li, X., Li, S., Luo, X., Tu, Z. Flexible load regulation method for a residential energy supply system based on proton exchange membrane fuel cell. Energy Conversion and Management, 2022, 258:115527.
[26] Zhao, J., Cai, S.**, Luo, X., Tu, Z. Dynamic characteristics and economic analysis of PEMFC-based CCHP systems with different dehumidification solutions. International Journal of Hydrogen Energy. 2022, 47(22):11644-11657
[27] Cai, S.*, Xia, L., Xu, H., Li, X., Liu, Z., Cremaschi, L. Effect of internal structure on dynamically coupled heat and moisture transfer in closed-cell thermal insulation. International Journal of Heat and Mass Transfer, 2022, 185:122391
[28] Zhou, X., Cai, S.*, Luo, X., Luo, X., Tu, Z., Li, S., Chang, H. Electro-osmotic regeneration and its behavior in a dehumidification application. Applied Thermal Engineering, 2022, 202:117861
[29] Cai, S., Zou, Y., Luo, X., Tu, Z. Investigations of a novel proton exchange membrane fuel cell-driven combined cooling and power system in data center applications. Energy Conversion and Management, 2021, 250:114906.
[30] Zhao J, Cai S.*, Huang X, Luo X, Tu Z. 4E analysis and multiobjective optimization of a PEMFC-based CCHP system with dehumidification. Energy Conversion and Management, 2021, 248:114789.
[31] He, L., Zhao, S., Xu, G., Wu, X., Xie, J., Cai, S.* Prediction and evaluation of dynamic variations of the thermal environment in an air-conditioned room using collaborative simulation method. Energies, 2021, 14:5378.
[32] 李晓宇, 徐宏阳, 代敏, 蔡姗姗*. 热弥散对地埋管换热器全尺度传热的影响. 化工学报, 2021, 72(05).
[33] Cai, S.*, Guo, H., Zhang, B., Xu, G., Li, K., Xia, L. Multi-scale simulation study on the hygrothermal behavior of closed-cell thermal insulation. Energy, 2020, 196, 117-142.
[34] Guo, H., Cai, S.*, Li, K., Liu, Z., Xia, L., Xiong, J. Simultaneous test and visual identification of heat and moisture transport in several types of thermal insulation. Energy, 2020, 197:117-137.
[35] Cai, S.*, Li, X., Zhang, M., Fallon, J., Li, K. & Cui, T. An analytical full-scale model to predict thermal response in boreholes with groundwater advection. Applied Thermal Engineering, 2020, 168.
[36] Cai, S.*, Huang, W., Luo, X., Li, X., Ji, J. Experimental study on the impact factors of electro-osmotic flow in dehumidification applications. Energy and Buildings, 2019, 202.
[37] Cai, S.*, Zhang, B., Cui, T., Guo, H. & Huxford, J. Mesoscopic study of the effective thermal conductivity of dry and moist soil. International Journal of Refrigeration, 2019, 98: 171-181.
[38] 徐国稳, 李坤, 蒋祎璠, 黄明骏, 房东旭, 蔡姗姗*. 三类随机分形结构下干土壤有效热导率的介观研究. 化工学报, 2019, 70(07).
[39] Cai, S.*, Zhang, B., & Cremaschi, L. Moisture behavior of polystyrene insulation in below-grade application. Energy and Buildings, 2018, 158, 24-38.
[40] Cai, S.*, Zhang, B., & Cremaschi, L. Review of Moisture Behavior and Thermal Performance of Polystyrene Insulation in Building Applications. Building and Environment, 2017, 123, 50-65.
[41] Cai. S.*, Zhu, W., & Cremaschi, L. Experimental study on the thermal conductivity and moisture ingress in closed-cell mechanical pipe insulation systems at below ambient conditions (ASHRAE RP-1646). Science and Technology for the Built Environment, 2016, 22(2), 201-213.
[42] Zhang, X., Chang, J., Cai, S. and Hu, J. A multi-stage travelling wave thermoacoustic engine driven refrigerator and operation features for utilizing low grade energy. Energy Conversion and Management, 2016, 114:224-233.
[43] Zhu, W., Cai, S.*, & Cremaschi, L. Thermal performance and moisture accumulation of fibrous mechanical pipe insulation systems operating at below ambient temperature in wet conditions with moisture ingress. Science and Technology for the Built Environment, 2015, 21(6), 862-875.
[44] Cai, S.*, Cremaschi, L., Ghajar, A. Pipe insulation thermal conductivity under dry and wet condensing conditions with moisture ingress: A critical review. HVAC&R Research, 2014, 20(4), 458-479. -被美国教材“Heat and Mass Transfer – Fundamentals and Applications”引用(第五版第十四章).
[45] Cremaschi, L., Cai, S., Worthington, K., & Ghajar, A. Measurement of pipe insulation thermal conductivity at below ambient temperatures Part I: Experimental methodology and dry tests (ASHRAE RP-1356). ASHRAE Transactions, 2012, 118(1), Paper No CH-12-030 ‘Awarded Best Poster Presentation Award at ASHRAE conferences in 2012’ 被美国教材“Heat and Mass Transfer – Fundamentals and Applications”引用(第五版第十四章).
[46] Cai, S.*, Cremaschi, L., Ghajar, A. Moisture accumulation and its impact on the thermal performance of pipe insulation for chilled water pipes in high performance buildings. Proceedings of the 2nd International High Performance Buildings Conference at Purdue, Purdue, U.S., 2012, July 21-24. - 被美国教材“Heat and Mass Transfer – Fundamentals and Applications”引用(第五版第十四章).
教材与标准:
[1] 陈焕新, 申利梅, 蔡姗姗. 制冷空调新技术, 机械工业出版社, 2022.
[2] 蔡姗姗, 沈英琪, 郑伟涛等, 校园新风净化系统装备规范T/JHBZ 001-2020, 湖北省空气净化行业协会团体标准, 2020.
授权发明专利:
[1] 蔡姗姗, 范丽欣, 涂正凯等, 一种燃料电池金属双极板的全局优化设计及综合评价方法, 授权号ZL202410521093.6.
[2] 蔡姗姗, 邹雨琦, 涂正凯等, 一种基于PEMFC的冷-热-电-湿联供系统及方法, 授权号ZL202111449341.3, 2021.12.
[3] 蔡姗姗, 邹雨琦, 涂正凯等, PEMFC联供的新风净化及除湿加湿装置及其控制方法, 授权号ZL202111447669.1, 2021.12.
[4] 蔡姗姗, 徐宏阳, 涂正凯等, 一种与PEMFC联供的电渗再生吸附式制冷系统, 授权号ZL202110485374.7, 2021.05.
[5] 蔡姗姗, 周兴, 涂正凯等, 一种用于吸附制冷系统的双螺旋翅片管式吸附床及应用, 授权号ZL202110485640.6, 2021.05.
[6] 蔡姗姗, 郭海金, 徐国稳等, 一种多功能热湿特性同步测试实验台, 授权号ZL201910095430.9.
[7] 蔡姗姗, 崔腾飞, 张博雄等, 一种电渗透制冷调湿换热器, 授权号ZL201710126210.9.
[8] 蔡姗姗, 张博雄, 郭海金等, 一种利用电渗效应降温和抑霜的空调室外机, 授权号ZL201810521897.0.
[9] 蔡姗姗, 张博雄, 郭海金等, 一种用于冷库的无霜换热系统, 授权号ZL201810394589.6.
[10] 蔡姗姗, 薛雪, 程奇等, 一种医院门诊部风机盘管风速及冷量联动控制方法及装置, 授权号ZL201710262453.5.
[11] 蔡姗姗, 崔腾飞, 张博雄等, 一种半被动式的保温调湿外墙系统, 授权号ZL201611256391.9.
软著:
[1] 蔡姗姗, 郭海金, 刁广琦等, 多功能热湿特性测试软件1.0, 登记号2021SR0695617.
[2] 蔡姗姗, 李旭, 邹雨琦等, 热探针测量仪软件1.0, 登记号2021SR1535956.
[3] 蔡姗姗, 王文莉, 陈焕新等, 翅片管式换热器仿真优化软件V1.0, 登记号2021SR1933222.