| 姓名: |
陈志豪 |
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| 性别: |
男 |
| 英文名: |
Chen Zhihao |
| 人才称号: |
省部级青年人才 |
| 职称: |
副教授,博导 |
| 职务: |
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专业: |
工程热物理 |
| 所在机构: |
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个人主页: |
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| 邮箱: |
zhchen2015@tju.edu.cn |
办公地点: |
北洋园校区34教 |
| 传真: |
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办公电话: |
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| 主要学历: |
2007.4~2011.3, 日本横滨国立大学,工学府,工学博士
2003.9~2006.3, 天津大学,热能工程,工学硕士
1999.9~2003.6,天津大学,热能与动力工程,工学学士
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| 主要学术经历: |
2015.6~至今,天津大学机械工程学院,副教授
2011.4~2015.3,日本横滨国立大学大学院工学研究院,研究教员
2006.9~2007.2,日本横滨国立大学大学院工学研究院,外国人客员研究员
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| 主要研究方向: |
课题组在相变传热领域开展国际前沿学术研究。在基础研究探索的同时面向国家重大需求,以推动实现“双碳”目标为背景,在能源利用等领域开发先进应用技术。主要研究方向如下:
1,气液相变过程中微米液膜的激光观测
2,沸腾传热微尺度机理及强化技术
3,新能源汽车高集成化轮毂电机冷却技术
4,直接液体浸没式电子芯片冷却技术
5,电解水制氢微纳米尺度气液输运
6,Marangoni冷凝及表面张力驱动现象
7,燃料电池微纳米多孔体低温冻结特性
8,混合工质液固相变低附着力储能技术
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| 主要讲授课程: |
工程传热学(本科生)
传热学(本科生)
热交换原理与技术(本科生)
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| 主要学术兼职: |
中国水力发电工程学会清洁能源装备冷却技术专委会 委员
日本传热学会 会员
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| 主要学术成就: |
发现核态沸腾微液膜波峰特殊结构,提出异态干涉沸腾及传热强化技术,发现Marangoni冷凝中液滴自发移动现象。主持国家自然科学基金、担任国家重点研发计划首席科学家。
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| 主要科研项目: |
1,国家重点研发计划政府间国际科技创新合作项目“新能源汽车轮毂电机高集成化冷却技术研究”,项目负责人,2021-2024。
2,国家重点研发计划“增程式燃料电池轿车动力系统平台及整集成技术”,子课题负责人,2018-2021。
3,国家自然科学基金青年科学基金“池沸腾传热过程中微液膜关键作用的研究”,项目负责人,2017-2019。
4,天津市自然科学基金青年项目“核态沸腾区域微液膜初始结构及其动态形成特性的研究”,项目负责人,2016-2019。
5,日本科学技术振兴机构樱花科技项目。国际交流项目,每年全额资助学生(主要为研究生)赴日本进行短期学术交流,2016年-至今。
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| 代表性论著: |
主要论文:
1.Zhihao Chen, Yoshio Utaka*, Jingying Xu, Yunqing Wang, Freezing characteristics of supercooled water in gas diffusion layer of proton exchange membrane fuel cells, International Journal of Hydrogen Energy, Volume 48 (65), 2023, 25527.
2.Zhihao Chen, Tianxi Xie, Yoshio Utaka*, Enhanced critical heat flux in pool boiling applying the method of different-mode-interacting boiling for water, International Journal of Heat and Mass Transfer, Volume 201, 2023, 123578.
3.Mayowa I. Omisanya, Zhihao Chen*, Yoshio Utaka*, Flow boiling critical heat flux enhancement via different-mode-interacting boiling in narrow gaps, International Journal of Heat and Mass Transfer, Volume 182, 2022, 121982.
4.孟璐璐,谢添玺,陈志豪,宇高義郎,材料交错分布型传热板表面异态干涉沸腾传热特性研究,化工学报,第72卷,第9期,2021年,pp. 4564-4572.
5.Chen Zhihao, Wu Feifei, Utaka Yoshio*, Chen Ping, Liang Chen, An Improved Treatment on the Apparent Contact Angle of a Single-Bubble in Consideration of Microlayer for Simulations of Nucleate Pool Boiling, Journal of Thermal Science, 30, 2021, pp. 1951–1959.
6.宇高义郎,许竞莹,王国卓,陈志豪*,质子交换膜燃料电池内含水气体扩散层的冻结特性研究,化工学报,第72卷,第4期,2021年,pp. 2276-2282.
7.Tianxi Xie, Yoshio Utaka*, Zhihao Chen*, Toshiki Hirotani, Shoji Mori, Effect of material arrangement pattern on different-mode-interacting boiling in narrow gaps with two liquid supply systems, Applied Thermal Engineering 191, 2021, 116893.
8.宇高義郎,郭嘉翔,陈志豪*,微通道流动沸腾过程中异态相干沸腾的强化传热研究,天津大学学报(自然科学与工程技术版),第53 卷,第9期,2020年,pp. 917-923。
9.Zhihao Chen, Xiaocheng Hu, Kang Hu, Yoshio Utaka*, Shoji Mori, Measurement of the microlayer characteristics in the whole range of nucleate boiling for water by laser interferometry, International Journal of Heat and Mass Transfer 146, 2020, 118856.
10.Tianxi Xie, Yoshio Utaka*, Zhihao Chen*, Shoji Mori, Effect of heating surface size on critical heat flux in different-mode-interacting boiling inside narrow gaps for water, International Journal of Heat and Mass Transfer 143, 2019, 118543.
11.Zhihao Chen, Yaru Fan, Yoshio Utaka*, Yanjie Zhao, Self-sustained movement of condensate drop on uniform temperature surface during Marangoni dropwise condensation, International Journal of Heat and Mass Transfer 142, 2019, 118468.
12.范亚茹,陈志豪,赵彦杰,宇高义郎,混合蒸气冷凝过程中均匀温度面上液滴自发移动现象及特性,化工学报,2019年,第70卷,第4期,pp. 1358-1366。
13.Yoshio Utaka, Kang Hu, Zhihao Chen*, Yanjie Zhao, Application of simple and effective thermal switch for solid-state magnetic refrigeration at room temperature, Applied Thermal Engineering 155, 2019, pp. 196–205.
14.Yoshio Utaka, Tianxi Xie, Zhihao Chen*, Takayuki Morokuma, Hidetoshi Ohkubo, Critical heat flux enhancement in narrow gaps via different-mode-interacting boiling with nonuniform thermal conductance inside heat transfer plate, International Journal of Heat and Mass Transfer 133, 2019, pp. 702–711.
15.Yoshio Utaka, Kang Hu, Zhihao Chen*, Takayuki Morokuma, Measurement of contribution of microlayer evaporation applying the microlayer volume change during nucleate pool boiling for water and ethanol, International Journal of Heat and Mass Transfer, Vol. 125, 2018, pp. 243-247.
16.Zhihao Chen, Feifei Wu and Yoshio Utaka*, Numerical simulation of thermal property effect of heat transfer plate on bubble growth with microlayer evaporation during nucleate pool boiling, International Journal of Heat and Mass Transfer, Vol. 118, 2018, pp. 989-996.
17.Zhihao Chen, Atsushi Haginiwa and Yoshio Utaka*, Detailed structure of microlayer in nucleate pool boiling for water measured by laser interferometric method, International Journal of Heat and Mass Transfer, Vol. 108, 2017, pp. 1285-1291.
18.Zhihao Chen and Yoshio Utaka*, On heat transfer and evaporation characteristics in the growth process of a bubble with microlayer structure during nucleate boiling, International Journal of Heat and Mass Transfer, Vol. 81, 2015, pp. 750-759.
19.Zhihao Chen*, Yoshio Utaka and Yutaka Tasaki, Measurement and numerical simulation on the heat transfer characteristics of reciprocating flow in microchannels for the application in magnetic refrigeration, Applied Thermal Engineering, Vol. 65, No. 1-2, 2014, pp. 150-157.
20.Zhihao Chen*, Takeshi Taguchi and Yoshio Utaka, Numerical simulation on the heat transfer characteristics during the bubble growth considering microlayer evaporation in nucleate boiling, Transactions of the JSME, Vol. 80, No. 812, 2014, pp. 1-17.
21.Yoshio Utaka*, Yuki Kashiwabara, Michio Ozaki and Zhihao Chen, Heat transfer characteristics based on microlayer structure in nucleate pool boiling for water and ethanol, International Journal of Heat and Mass Transfer, Vol. 68, 2014, pp. 479-488.
22.Zhihao Chen and Yoshio Utaka*, Characteristics of condensate drop movement with application of bulk surface temperature gradient in Marangoni dropwise condensation, International Journal of Heat and Mass Transfer, Vol. 54, No. 23-24, 2011, pp. 5049-5059.
23.Zhihao Chen and Yoshio Utaka*, Drop movement under bulk temperature gradient of heat transfer surface in marangoni dropwise condensation: effect of initial drop distance, Transactions of the JSME, series B, Vol. 75, No. 757, 2009, pp. 90-97.
著书:
1, An Overview of Heat Transfer Phenomena (Chapter 10), ISBN 978-953-51-0827-6, InTech, 2012.
2, Boiling-Research and Advances (Chapter 2.2), ISBN: 978-0-08-101010-5, Elsevier, 2017.
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