何为,主要从事能源高效利用相关技术研究,高被引学者。获评天商青年百人英才、两优一先优秀共产党员、天商优秀教师、优秀大创指导教师。受聘中国电子节能技术协会数据中心节能技术委员会专家组专家,入选2019年国际清洁能源拔尖创新人才培养项目。兼职国际传递现象会议执行委员会委员、国际清洁能源研究进展会议技术委员会委、国际期刊审稿人。主要承担项目11项,其中主持国基金等项目6项。以一作/通迅作者发表科技论文76篇,其中SCI 检索30篇,且论文获评高被引和热点。第一主编出版教材《暖通空调技术与装置实验教程》,参编《2022年数据中心冷却技术年度发展研究报告》,且参编《数据中心氟泵空调技术团体标准》。申请发明专利13项,已授权国内发明专利6项,国际专利2项。
一、基本信息
2021/01至今 天津商业大学,热能工程专业,副教授
2019/09-2019/11,瑞典梅拉达伦大学,访问学者
2018/07-2018/12,日本东京工业大学,访问学者
2016/12-2020/12, 天津商业大学,热能工程专业,讲师
2014/11-2016/12,天津大学,力学专业,二站博士后
2012/10-2014/10,天津大学,工程热物理专业,一站博士后
2006/09-2012/03,北京工业大学,热能工程专业,硕博
2002/09–2006/07,东北石油大学,建筑环境与设备工程专业,学士
二、 研究方向
(1)数据中心冷却节能技术;
(2)可再生能源技术;
(3)余热能回收利用技术。
三、代表性论著(一作SCI)
[1] Wei He, Zihan Cai, Rui Guo, Yulong Zhao, Yabo Wang, Yulin Wang*. Effect of exhaust thermal parameters on optimal circuit layouts and optimal thermoelectric generator structure used in internal combustion engine. Energy Conversion and Management: X( 2023).
[2] Wei He, Zihan Cai, Rui Guo, Shixue Wang, Lei Miao, Yulong Zhao, Yulin Wang *. Analysis on optimal length scale of thermoelectric generators when using different circuit layouts. Applied Thermal Engineering(2023). (JCR-2区,影响因子6.4)
[3] Wei He, Jifang Zhang, Hailong Li, Rui Guo, Shengchun Liu, Xiaohui Wu, Jie Wei, Yulin Wang*. Effects of different water-cooling heat sinks on the cooling system performance in a data center. Energy and Buildings (2023). (JCR-2区,影响因子7.201)
[4] Wei He*, Jifang Zhang, Rui Guo, Chenchen Pei, Hailong Li, Shengchun Liu, Jie Wei, Yulin Wang*. Performance analysis and structural optimization of a finned liquid-cooling radiator for chip heat dissipation, Applied Energy 327 (2022) 120048. (JCR-1区,影响因子11.446)
[5] Jifang Zhang, Wei He*, Rui Guo, Hailong Li, Shengchun Liu, Jie Wei, Yulin Wang. Optimal Thermal Management on Server Cooling System to Achieve Minimal Energy Consumption Based on Air-cooled Chiller, Energy Reports 8 (2022) 154–161. (JCR-2区,影响因子4.937)
[6] Wei He, Zihan Cai, Rui Guo, Shixue Wang, Xingyu Liang, Yulong Zhao, Lei Miao, Yulin Wang*. Analysis of the influence of different thermal boundary conditions on thermoelectric generators, Energy Reports 8 (2022) 48–55. (JCR-2区,影响因子4.937)
[7] Wei He, Jifang Zhang , Hailong Li , Shengchun Liu , Yulin Wang* , Baoying Lv , Jie Wei. Optimal thermal management of server cooling system based cooling tower under different ambient temperatures, Applied Thermal Engineering, 207 (2022) 118176. (JCR-2区,影响因子6.465)
[8] Wei He, Su Ding, Jifang Zhang, Chenchen Pei, Zhiheng Zhang, Yulin Wang*, Hailong Li, Performance optimization of server water cooling system based on minimum energy consumption analysis, Applied Energy, 303 (2021) 117620. (JCR-1区,影响因子11.446)
[9] Wei He, Li Tao, Lei Han, Yasong Sun, Pietro Elia Campana**, Jinyue Yan *. Optimal analysis of a hybrid renewable power system for a remote island, Renewable Energy, 179 (2021) 96-104. (JCR-1区,影响因子8.634)
[10] Wei He, Rui Guo, Shengchun Liu*, Kai Zhu, Shixue Wang. Temperature gradient characteristics and effect on optimal thermoelectric performance in exhaust power-generation systems,Applied Energy, 261 (2020) 114366. (JCR-1区,影响因子11.446)
[11] Wei He*, Rui Guo, Hiroki Takasu, Yukitaka Kato, Shixue Wang, Performance optimization of common plate-type thermoelectric generator in vehicle exhaust power generation systems, Energy, 175 (2019) 1153-1163. (JCR-1区,影响因子8.857)
[12] Wei He*, Shixue Wang, Performance Comparison of Different Exhaust Exchanger Types Considering Peak Net Power and Optimal Dimension in a Thermoelectric Generator System,Advanced Theory and Simulations, 1(2018),1800012. (JCR-3区,影响因子4.105)
[13] Wei He, Shixue Wang*, Like Yue, High net power output analysis with changes in exhaust temperature in athermoelectric generator system, Applied Energy, 196(2017):259-267. (JCR-1区,影响因子11.446)
[14] Wei He*, Shixue Wang, Yurong Yang, Peak power evaluation and optimal dimension design of exhaust heat exchanger for different gas parameters in automobile thermoelectric generator, Energy Conversion and Management, 151(2017): 661-669 (JCR-1区,影响因子11.533)
[15] Wei He, Shixue Wang*, Thermoelectric performance optimization when considering engine power loss caused by back pressure applied to engine exhaust waste heat recovery, Energy, 133(2017): 584-592. (JCR-1区,影响因子8.857)
[16] Wei He, Shixue Wang*, Chi Lu, Xing Zhang, Yanzhe Li, Influence of different cooling methods on thermoelectric performance of an engine exhaust gas waste heat recovery system, Applied Energy, 162(2016):1251~1258. (JCR-1区,影响因子11.446)
[17] Wei He, Shixue Wang*, Yanzhe Li, Yulong Zhao,Structural size optimization on an exhaust exchanger based on the fluid heat transfer and flow resistance characteristics applied to an automotivethermoelectric generator,Energy Conversion and Management, 129(2016):240-249 (JCR-1区,影响因子11.533)
[18] Wei He, ShixueWang*, Yulong Zhao, Yanzhe Li, Effects of heat transfer characteristics between fluid channels and Thermoelectric modules on optimal thermoelectric performance, Energy Conversion and Management, 113(2016):201~208 (JCR-1区,影响因子11.533)
[19] Wei He, Shixue Wang*, Xing Zhang, Yanzhe Li, Chi Lu, Optimization design method of thermoelectric generator based on exhaust gas parameters for recovery of engine waste heat , Energy, 91(2015):1~9 . (JCR-1区,影响因子8.857)
[20] Wei He, Yuting Wu*, Yanhai Peng, Yeqiang Zhang, Chongfang Ma, Guoyuan Ma, Influence of Intake Pressure on the Performance of Single Screw Expander Working with Compressed Air, Applied Thermal Engineering, 51(2013): 662~669 (JCR-2区,影响因子6.465)
[21] Wei He, Yuting Wu*, Chongfang Ma, Guoyuan Ma, Performance Study on Three-stage Power System of Compressed Air Vehicle Based on Single-screw Expander, Science China-Technological Sciences, 8 (2010):2299~2303 (JCR-2区,影响因子3.903)
四、 科研项目
(1) 国家自然科学基金青年项目, 温差发电器非均温界面热电输运机理及尺度效应,51806152,2019/01-2021/12;(主持)
(2) 国家科技部政府间国际科技创新合作重点项目子课题,“LNG冷能及燃气余热能高效回收热电发电器的研发”,2017YFE0198000,2019/01-2021/12;(主持)
(3)中国博士后科学基金面上项目一等资助,“基于瞬态脉动内燃机废气余热能高效热电转换机理研究”,2015M580200,2015/01-2016/12;(主持)
(4)天津市教委科研计划项目,“金属多孔介质核心流传热效应及热电耦合机理研究”,170019,2017/09-2019/08;(主持)
(5)天津商业大学新进人员科研启动项目,12170102,“工业余热能高效热电转换机理研究”;(主持)
(6)天津商业大学校企合作横向项目,“LNG分布式能源系统温差发电器性能优化”,2021/5-2022/5。(主持)
(7)天津市自然科学基金重点项目,“数据中心服务器CPU组件液体冷却关键技术研究”, 18JCZDJC97100,2018/04-2022/10。(主要负责完成人)
五、 出版图书(2部)
[1] 暖通空调技术与装置实验教程,天津大学出版社,2018.8, ISBN978-7-5618-6179-0,387千字,第一主编。
[2] 中国数据中心冷却技术年度发展研究报告2022,中国建筑工业出版社,2023.3,ISBN978-7-1122-8438-2, 5.2节编写人员
六、参编标准(1项)
[1]数据中心氟泵空调技术标准,团体标准,2022.5.10发布 2022.6.10起实施,T/DZJN 89—2022
七、授权发明专利
[1]Wei He, Yu Zhu, Shengchun Liu, Rui Guo, Yurong Yang, Jiamei Li, Shenming Li. A COMPOSITE THERMOELECTRIC GENERATOR WITH NON-UNIFORM FLOW RATE BASED ON THE TEMPERATURE DEPENDENCE OF THERMOELECTRIC MATERIAL.南非,2022/12069.
[2] Wei He, Yu Zhu, Rui Guo, Shengchun Liu, Yurong Yang, Jiamei Li, Shenming Li. A NON-UNIFORM ENHANCED FINNED THERMOELECTRIC GENERATOR BASED ON SEMICONDUCTOR CHARACTERISTICS OF THERMOELECTRIC MATERIAL.南非,2022/11775.
[3] 何为,杨添会,郭瑞,王安安,姚光森,基于热电材料温度依存性的非均匀流速复合温差发电器,中国,CN202010603909.1
[4] 何为,姚光森,郭瑞,徐辉,石颖,基于热电材料半导体特性的非均匀强化翅片温差发电器,中国,CN202010603921.2
[5] 何为,石颖,郭瑞,黄颖,杨添会,一种利用热化学反应的温差发电装置,中国,CN202010604842.3
[6] 马重芳,吴玉庭,何为, 采用气体引射器的气动汽车动力系统, 中国, CN201210531569.1
[7] 马重芳,吴玉庭,何为, 单螺杆膨胀机与熔盐相结合的发动机系统, 中国, 201010238825.9
[8] 马重芳,吴玉庭,何为, 单螺杆膨胀机气动汽车发动机动力系统, 中国, ZL201010154090.1
