汪维伟
详细资料
姓名:汪维伟
职称:副教授、硕士生导师
学科方向:新能源科学与工程
研究领域:
(1) 中深层油田高温区热管高效取热及传热传质理论;
(2) 太阳能-地热能混合储能与多尺度热管理方法;
(3) 光伏-光热-相变一体化与建筑节能技术;
教育及工作经历:
(1) 2025.01-至今,长江大学(武汉校区)石油工程学院,特任教授
(2) 2022.01-2024.12,武汉大学,机械工程,重点资助博士后/助理研究员
(3) 2018.09-2021.12, 武汉大学,热能工程,博士
(3) 2015.09-2018.06,安徽工业大学,动力工程及工程热物理,硕士
联系方式:wangvv126@126.com,wangb9107@whu.edu.cn
个人简介:
安徽安庆人,长江大学“学科菁英人才”,湖北省制冷学会理事,湖北省碳中和研究学会理事;围绕智慧热管多尺度高效相变热输运及热管理、太阳能-地热-储能综合利用关键技术开展研究,主持了JKW“173”基础加强计划、中国博士后科学基金特别资助及面上资助,湖北省自然科学基金三峡联合基金,江苏省自然科学基金,湖北省重点研发子课题,中央高校基本科研业务专项,建筑安全与环境国家重点实验室开放课题等10余项国家或省部级课题。共计发表学术论文60余篇 (其中SCI检索40篇),在能源与传热领域权威SCI期刊以第一或通讯作者发表20篇。申请国家发明专利14项(授权7项) ,授权软件著作权20余项。受邀担任Buildings 、Frontiers in Heat and Mass Transfer、Frontiers in Built Environment SCI专刊首席客座编委,Applied Energy、Energy、Applied Thermal Engineering 等20余本知名SCI期刊审稿人;湖北省制冷学会“先进科技工作者”,托木斯克国立大学访问学者。曾获2023年度湖北省科学技术进步奖(排名3/9),CEBE2023国际会议最佳口头报告奖,SET2024国际会议最佳海报奖;作为导师指导本科生获全国大学生节能减排大赛二等奖、三等奖(两项),全国“互联网+”大学生创新创业大赛省级铜奖,并指导省级大学生创新创业项目3项。
主持或参与的纵向科研项目:
(1) 173基础加强计划:面向微小型****热管理研究,主持
(2) 中国博士后科学基金特别资助:基于聚光PV/T-相变-热电耦合高效太阳能梯级发电关键科学问题研究,主持
(3) 省科技厅-省自然科学基金:基于发汗冷却技术的PV能量转换机理和仿生结构逆向设计研究,主持
(4) 省科技厅-省自然科学基金三峡联合基金:太阳能-地热储能系统间歇能流分析与动态耦合机制研究,主持
(5) 省重点研发-新能源技术创新专项:低功耗热泵与高能流储能装备关键技术研究,子课题主持
(6) 中国博士后科学基金面上资助:反重力下仿生复合吸液芯结构的毛细流动-蒸发强化传热机理研究,主持
(7) 湖北省博士后创新研究岗位:低热载条件下自激式毛细热管传热机理及PV/T光热转换特性研究,主持
(8) 中央高校基本科研业务费专项:仿生多孔自湿性相变体系PV多能输运及冷却机制研究,主持
(9) 建筑安全与环境国家重点实验室开放课题:太阳能光伏光热-储能综合利用关键技术研究,主持
(10) 国家自然科学基金国际合作与交流项目:中俄典型气候区太阳能-地热复合储能系统及其低功耗多元通风耦合增益研究,主研
(11) 省科技厅-省重点研发计划,热管热电光伏制冷与泵式通风耦合增益建筑节能关键技术研究,主研
(12) 科技部高水平合作交流活动援外项目:中俄深空探测器热管理与适应性技术,主研
(13) 武汉市应用前沿项目:热电-电化学耦合过程热质流传递与多能量转换协同增益研究,主研
(14) 科技部十四五-国家重点研发计划:复杂路网环境群组列控数字轨道地图设计及运用技术研究,参与
(15) 科技部十四五- 国家重点研发计划:风驱雨热湿耦合传递下系统热湿特性与渗漏机理,参与
学术成果(共计60篇,其中40余篇SCI):
(1) W.-W. Wang, T. Liu, J-Z Guo, B. Li, H-L Zhang, Y Cai, F-Y Zhao*, D Liu. Experimental Investigation on the Thermal Performance of High-Concentrated Photovoltaic Module utilizing the Thermal Sink of a Novel Fan-Shaped Plate Pulsating Heat Pipe. Applied Energy, (377)2025:124365, (中科院1区,IF=10.1,JCR Q1)
(2) W.-W. Wang, Y. Cai, L. Wang, C-W Liu, F-Y Zhao*, D. Liu. Thermo-hydrodynamic analytical model, numerical solution and experimental validation of a radial heat pipe with internally finned condenser applied for building heat recovery units. Energy Conversion and Management, (219)2020:130041, (中科院1区,IF=9.9,JCR Q1)
(3) W.-W. Wang, J-W Chen, C-Y Zhang, H-F Yang, X-W Ji, H-L Zhang, F-Y Zhao*, Y. Cai. Green thermal management of photovoltaic panels by the absorbent hydrogel evaporative (AHE) cooling jointly with 3D porous copper foam (CF) structure. Energy, (293)2024: 130467. (中科院1区,IF=9.0,JCR Q1)
(4) W.-W. Wang, H-F Yang, H-L Zhang, T-Y Xu, F-Y Zhao*, S-J Wu. Pulsating heat pipe and thermo-electric generator jointly applied in renewable energy exploitation: Analytical and experimental investigations. Energy, (263) 2023:125573. (中科院1区,IF=9.0,JCR Q1)
(5) W.-W. Wang, H-L Zhang, Y-J Song, J-W Song, J-W Song, F-Y Zhao, Y Cai. Fluid Flow and Thermal Performance of the Pulsating Heat Pipes Facilitated with Solar Collectors: Experiments, Theories and GABPNN Machine Learning. Renewable Energy, (200) 2022:1533-1547. (中科院1区,IF=9.0,JCR Q1)
(6) W.-W. Wang, L Wang, Y Cai, G-B Yang, F-Y Zhao*, D Liu, Q-H Yu. Thermo-hydrodynamic model and parametric optimization of a novel miniature closed oscillating heat pipe with periodic expansion-constriction condensers. International Journal of Heat and Mass Transfer, (152)2020: 119460. (中科院1区,IF=5.0,JCR Q1)
(7) W.-W. Wang, Y-J Song, B Li, D Liu, F-Y Zhao, Y Cai. A Novel Flat Heat Pipe for Anti-Gravity Orientations: Leaf Fractal Evaporator and Bi-Directional Transport Capillary Channel. Applied Thermal Engineering, (232) 2023: 120954. (中科院2区TOP,IF=6.1,JCR Q1)
(8) W.-W. Wang, Y Cai, R-Z Liu, F-Y Zhao*, D Liu. Experimental and numerical investigations of a radial heat pipe for waste heat recovery, Applied Thermal Engineering, (164) 2019: 602-613. (中科院2区TOP,IF=6.1,JCR Q1)
(9) W.-W. Wang, Y-J Song, C-Y Zhang, H-L Zhang, Y Cai, F-Y Zhao*, J-H Guo. Fluid Hydrodynamics and Thermal Transports in Nanofluids Pulsating Heat Pipes Applied for Building Energy Exploitations: Experimental Investigations and Full Numerical Simulations. Energy and Buildings, (290) 2023:113067. (中科院2区TOP,IF=6.7,JCR Q1)
(10) W.-W. Wang, Y Cai, L Wang, C-W Liu, F-Y Zhao* M. Sheremet, D. Liu. A two-phase closed thermosyphon operated with nanofluids for solar energy collectors: Thermodynamic modeling and entropy generation analysis. Solar Energy, (211) 2020:192-209. (中科院2区TOP,IF=6.0,JCR Q1)
(11) W.-W. Wang, J Song, Z-D Chen, B Li, H-F Yang, Y Cai, F-Y Zhao*. Two-Phase Closed Thermosiphon with Grooved the Evaporator Section Applied for Low-Grade Energy Recovery: Thermo-Hydrodynamic Performance and Potentials. International Journal of Thermal Sciences. (208)2025:109416. (中科院2区,IF=4.9,JCR Q1)
(12) Y-J Song, B. Li, M.-M. Wu, W.-W. Wang*, F.-Y. Zhao, J.-H. Guo. Thermo-Hydrodynamic Performance and Geyser Boiling Flows of a Novel Co-axial Condensing Heat Pipe (CCHP) for Low-Grade Green Energy Exploitations. International Journal of Heat and Mass Transfer. (237)2025: 126391. (2区TOP, IF=5.0,JCR Q1)
(13) Y-J Song, B Li, C-Y Zhang, W.-W. Wang*, F-Y Zhao, J-H Guo. Solar Photo-Voltaic and Thermal System Facilitated with Novel Coaxial Condensing Heat Pipe: Thermo Hydrodynamic Modelling and Parametric Optimization for Overall Operation Performance. (264)2023: 112019. Solar Energy. (中科院2区TOP,IF=6.0,JCR Q1)
(14) B. Li, H.-L Zhang, J-H Chen, M-M Wu, W.-W. Wang*, F.-Y. Zhao, Y-G Li. Architectural Coatings and Temperature Adaptive Radiative Cooling Strategies Applied in Ten Climate Zones in China: Annual Energy Consumption Reductions and Potentials. Energy and Buildings (中科院2区TOP,IF=6.7,JCR Q1) . (328)2025: 115121.
(15) B.-H. Hong, Z.-Y. Zhou, X.-Y. Huang, J.-W. He, Y. Cai, W.-W. Wang*, F.-Y. Zhao. A comprehensive investigation of PCM based annular thermoelectric generator for energy recovery: Energy conversion characteristics and performance evaluation. Applied Thermal Engineering, (228)2023: 120474. (中科院2区TOP,IF=6.1,JCR Q1)
(16) D.-Y. Wan, J. Li, Y.-C. Chen, Q. Tang, J. Hong, W.-W. Wang*, F.-Y. Zhao, J.-H. Guo. Experimental investigation and semi-empirical correlations for a pulsating heat pipe filling with hybrid nanofluids applied for low-grade energy recovery. Case Studies in Thermal Engineering, (40) 2022:102503. (中科院2区TOP,IF=6.4,JCR Q1)
(17) X-Z Huang, B Li, H-L Zhang, W-W Wang*, F-Y Zhao, Y Cai. Optimizing spray cooling systems: A comprehensive study on influential parameters and their effects on heat transfer under varied heat flux conditions. Numerical Heat Transfer, Part A: Applications, 2024. (IF=2.8,JCR Q2) https://doi.org/10.1080/10407782.2023.2290088
(18) X.-Z. Huang, W.-W. Wang*, F.-Y. Zhao, H-L Zhang, H. Xu, D.-K Shi, Y. Cai. Irreversibility of thermoelectric cooling model: Newtonian linear heat transfer and finite time thermodynamics. Numerical Heat Transfer, Part B: Fundamentals, (83)2023:58-80. (IF=1.7,JCR Q3)
(19) L.-J. Zou,W.-W. Wang*, Simulation study of flow and heat transfer in a thermosyphon. Numerical Heat Transfer, Part B- Fundamentals, (72)2017: 55-70. (IF=1.7,JCR Q3)
(20) 汪维伟, 赵福云,王磊,蔡阳. GO-纳米流体在振荡热管气-液脉动现象及其传热特征. 中南大学学报自然科学版,2021,6(52): 1789−1797. EI收录
(21) 汪维伟,黄昕之,赵福云,陈硕,王磊,蔡阳,赵月帅. 基于航空电子散热的叶脉仿生均热板性能研究. 航天器环境工程, 2021,38(2):138-147. CSCD中文核心
发明专利(申请14项,授权7项):
1. 汪维伟,郑楚明,张春雨,张宏亮,杨鸿飞,赵福云,郭江华. 一种基于半导体与相变制冷结构的微环境抽湿控温装置,发明专利:CN 202210591501.6. (公开授权)
2. 汪维伟,喻可,陈硕,赵福云,帅威. 一种主动式高效降温的射流喷管冷却系统,发明专利:CN 202010741650.7. (公开授权)
3. 汪维伟,赵福云,蔡阳,王磊,刘呈威. 一种自湿润流体耦合复合吸液芯均热板,专利申请号:CN 202020947029.1.(公开授权)
4. 郭江华,赵福云,汪维伟,吕卓航,宋永娟. 一种基于移动机器人的辐射环境探测方法和系统,发明专利:CN 202310356288.5.(公开授权)
5. 郭江华,赵福云,汪维伟,张宏亮,张译丹,宋永娟,吕卓航,杭翠翠. 基于三维模拟的城市立体绿化分布方法. 发明专利:CN202311142542.8. (公开授权)
6. 赵福云,喻可,常晨,汪维伟,陈硕. 一种基于 MEMS 技术的热温差型流量传感器及制备方法,发明专利:CN 201910509847.5. (公开授权)
7. 郭江华,赵福云,张译丹,汪维伟,张宏亮,宋永娟,吕卓航,杭翠翠. 基于三维模拟的城市通风性和污染物扩散的分析方法. 发明专利:CN202310999332.4. (公开授权)
8. 汪维伟,喻可,赵福云,杨鸿飞,陈硕,景一,王磊. 一种用于航天电子散热的振荡复合式毛细芯均热板结构, 发明专利:CN 202010976031.6.
9. 汪维伟,陈振东,吕卓航,吴明明,陈俊昊,邓楚凡,郭江华,赵福云. 一种双向脉动热管协同相变材料的零能耗建筑热管理系统,发明专利:CN 202411409546.2
10. 汪维伟,陈振东,吕卓航,吴明明,陈俊昊,邓楚凡,郭江华,赵福云. 光热储能系统,发明专利:CN 202411674834.0
软件著作权(授权20余项):
1. 汪维伟等. 脉动热管传热性能数值预测软件,软件著作权,2022SR0942369
2. 汪维伟等. 新型同轴冷凝式热管太阳能PV/T系统性能数值预测软件,软件著作权,2023SR1061923
科研奖励及获奖:
(1) 低品位能源高效转换关键技术与应用,2023年度湖北省科技进步奖. 汪维伟(3/9)
(2) 享呼吸—一种基于相变耦合半导体制冷的抽湿控温医用防护服,第十五届全国大学生节能减排大赛二等奖,指导老师:汪维伟
(3) 全波段太阳能精准调控昼夜两用低能耗干燥器,第十四届全国大学生节能减排大赛三等奖,指导老师:汪维伟
(4) iCooling-Battery heat sink based on foam-hydrogel and thermoelectric copper cooler,第十七届全国大学生节能减排大赛港澳台及国际赛道铜奖, 指导老师:汪维伟
(5) 冰点鲜行-基于多层相变蓄冷凝胶结构的医用疫苗储蓄装置,第七届“互联网+”大学生创新创业大赛省级铜奖,指导老师:汪维伟
(6) 牛备备基于工程机械物联网的设备托管租赁服务者,2021年度湖北省级大学生创新创业训练项目,项目编号: S202110486121. 指导老师:汪维伟.
(7) 超重力环境下仿生复合毛细结构内气液相变传热及其强化机制研究,2024年度湖北省级大学生创新创业训练项目,项目编号: S202410486137. 指导老师:汪维伟
(8) 零能耗双向脉动热管墙体热流智能调控及多尺度传热机理研究,2025年度省级大学生创新创业训练项目. 指导老师:汪维伟
(9) Study on the Multienergy Conversion Characteristics and Influencing Factors of Solar PV in Biomimetic Capillary Phase Change System,CEBE 2023国际会议,最佳口头报告奖;
(10) Performance study of a fan-shaped flat plate pulsating heat pipe for cooling highly concentrated photovoltaic cells, SET2024 国际会议,最佳海报奖;
湖北省制冷学会“先进科技工作者”,中国工程热物理学会会员
(2025年1月更新)
