研究生处(学科办公室)(已发布)
 首页 | 机构设置 | 学科建设 | 招生工作 | 培养工作 | 专业学位 | 学籍管理 | 学位管理 
 
 管理学院 
 经济学院 
 机械工程学院 
 生物技术与食品科学院 
 法学院 
 公共管理学院 
 马克思主义学院 
 信息工程学院 
 外国语学院 
 理学院 
 会计学院 
 
  工程热物理
当前位置: 首页>>招生工作>>硕导风采>>机械工程学院>>工程热物理>>正文
 

热能工程-何为

2024年09月15日 14:41  点击:[]

  

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。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 systemsApplied 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 SystemAdvanced Theory and Simulations, 12018),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 ZhaoStructural size optimization on an exhaust exchanger based on the fluid heat transfer and flow resistance characteristics applied to an automotivethermoelectric generatorEnergy 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,518061522019/01-2021/12;(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”,2017YFE01980002019/01-2021/12;(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”,2015M5802002015/01-2016/12;(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”,1700192017/09-2019/08;(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”, 18JCZDJC971002018/04-2022/10。(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,20188 ISBN978-7-5618-6179-0387千字,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,2023.3ISBN978-7-1122-8438-2, 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

 

上一条:制冷及低温工程-陈爱强 下一条:工程热物理-杨文哲

关闭

版权所有@天津商业大学研究生处(学科办公室)
地址:天津市北辰区光荣道409号 邮编:300134 电话:022-26669611 E-mail:
tsyjs@tjcu.edu.cn

天津商大研招微信公众平台
..............................