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姓名: 张红娜
性别:
英文名: ZHANG HONGNA
人才称号:
职称: 副教授、博导
职务: 专业: 核能工程
所在机构: 能源与动力工程系 个人主页: https://www.researchgate.net/profile/Hong_Na_Zhang
邮箱: hongna@tju.edu.cn 办公地点: 北洋园校区热动力大楼(34教)252室
传真: 办公电话:
主要学历: 2011.10–2014.09 日本京都大学,工学研究科,核能工程专业,工学博士
2008.09–2010.06 哈尔滨工业大学,能源科学与工程学院,流体机械及工程,工学硕士
2004.09–2008.06 中国石油大学(北京),石油天然气与工程学院,油气储运工程,工学学士 / 工商管理学院,国际经济与贸易,经济学学士


主要学术经历: 2020.09 至今,天津大学,澳门黄金城在线平台,副教授
2017.12 -2020.09, 中山大学,中法核工程与技术学院,副教授
2015.07-2018.05, 哈尔滨工业大学, 国际交流计划“引进项目”博士后,师资博后
2014.10–2015.03 日本京都大学, 日本学术振兴会JSPS博士后研究员


主要研究方向: 核反应堆热工水力,计算流体力学,粘弹性流体动力学,微尺度强化换热技术、微/纳流控、微/纳颗粒操控技术等相关方向

主要讲授课程:

主要学术兼职: 担任 International Communications of Heat and Mass Transfer, International Journal of
Mechanical Science, Applied Thermal Engineering, Microfluidics and Nanofluidics, ASME
Journal of Fluids Engineering, Industrial & Engineering Chemistry Research等国际期刊审稿人。


主要学术成就:

主要科研项目: 主持科研项目
1.国家自然科学基金,2020/01-2023/12,粘弹性流体弹性-惯性湍流及其在减阻湍流中的
作用机理,55 万,项目负责人
2.装备预研重点实验室基金,2019/01-2020/12,多环路****研究, 15 万,项目负责人
3.中船重工热能动力重点实验室开放基金,2020/01-2021.12, 船舶蒸汽动力系统多场耦
合过程降阶模型研究,18 万,项目负责人
4.国家自然科学基金, 2017/01/01-2019/12/30, 微尺度粘弹性流体与动电效应耦合作用
机理研究, 21.0 万元,项目负责人
5.中国博士后基金面上资助, 2016/03-2017/08, 微通道内粘弹性流体电渗流特性与机理
研究, 5.0 万元,项目负责人
6.黑龙江博士后基金, 2015/09 -2017/08, 微通道内粘弹性流体动电效应特性与机理研究,7.0 万元,项目负责人
7.日本学术振兴会特别研究员奖励金,2012/04-2015/03, 粘弹性流体弹性湍流特性研究, 15.0 万元, 项目负责人


代表性论著: 专著:蔡 伟华、李小斌、张红娜、李凤臣, 粘弹性流体动力学,科学出版社, 2016
近五年期刊论文(通讯作者或第一作者):
1. Wenhua Zhang, Hong-Na Zhang*, Bo Yu, Jingfa Li, Fengchen Li*, “Comparison of turbulent drag reduction mechanisms of viscoelastic fluids based on the Fukagata-Iwamoto-Kasagi identity and the Renard-Deck identity”, Physics of Fluids 32 (2020) 013104.
2. Yuan Chao, Zhang Hongna*, Lixia Chen, Junlong Zhao, Li Fengchen*,Numerical Study on the Characteristics of Boger Type Viscoelastic Fluid Flow in a Micro Cross-Slot under SInusoidal Stimulation, Entropy, 2020, 22, 64
3. Yuan Chao, Zhang Hongna*, Li Yuke, Li Xiaobin, Wu Jian, Li Fengchen*, Nonlinear Effect in Viscoelastic Fluid Flows and Its Application in Microfluidics: A Review. Journal of Mechanical Engineering Science (Proc. IMechE Part C), 2020,234(22)
4. Dilin Chen, Jie Li*, Haiwen Chen, Lai Zhang, Hongna Zhang*, Yu Ma*, Electroosmotic Flow Behavior of Viscoelastic LPTT Fluid in Microchannel, Micromachine, 2019, 10(2)
5. Li Sining, Zhang Hongna*, Cheng Jianping,Li Xiaobin, Cai Weihua, Li Zengyao, Li Fengchen, A state-of-the-art overview on the developing trend of heat transfer enhancement at micro scale, International Journal of Heat and Mass Transfer, 2019,143:118476
6. Cheng Jianping, Cai WeiHua*, Zhang Hongna*, Li Fengchen, Shen Lian, Qian Shizhi, Numerical study on the dynamic process of individual plume in polymer solutions, Physics of Fluids, 2019, 31(2):023105
7. Basatakoti Durga, Zhang Hongna*, Li Xiaobin, Cai Weihua, Li Fengchen. Visualization of bubble mechanism of pulsating heat pipe with conventional working fluids and surfactant solution. Experimental and Computational Multiphase Flow, 2019, 8. DOI: 10.1007/s42757-019-0033-y
8. Bastakoti Durga, Zhang Hongna*, Li Da, Cai Weihua*, Li Fengchen An Overview on the Developing Trend of Pulsating Heat Pipe and its Performance. Applied Thermal Engineering, 2018, 141:305-332
9. Li Yuke, Zhang Hongna*, Li Yongyao, Li Xiaobin, Wu Jian, Qian Shizhi, Li Fengchen*, Dynamic control of particle separation in deterministic lateral displacement separator with viscoelastic fluids, Scientific Reports, 2018, 10.1038/s41598-018-21827-7
10. Bai Fan, Li Yuke, Zhang Hongna*, Sang Woo Joo, A Numerical Study on Viscoelastic Droplet Migration on a Solid Substrate due to Wettability Gradient, Journal of Electrophoresis, 2018
11. Mei Lanju, Zhang Hongna, Meng Hongxia, Qian Shizhi. Electroosmotic Flow of Viscoelastic Fluid in a Nanoslit. Micromachines, 2018, 9(4):155.
12. Cai Weihua, Li Yongyao, Zhang Hongna*, Li Yuke, Cheng Jianping, Li Xiaobin, Feng-Chen Li*, An efficient micro-mixer by elastic instabilities of viscoelastic fluids, International Journal of Heat and Fluid Flow, 2018.09.006
13. Zhang Hongna#, Li Sining#, Cheng Jianping, Zheng Zhiying, Li Xiaobin*, Li Fengchen*, Numerical study on the pulsating effect on heat transfer performance of pseudo-plastic fluid flow in a manifold microchannel heat sink, Applied Thermal Engineering, 2017,129,
14. Durga Bastakoti, Hongna Zhang*, Weihua Cai, Fengchen Li*, An Experimental Investigation of Thermal Performance of Pulsating Heat Pipe with Alcohols and Surfactant Solutions, International Journal of Heat and Mass Transfer, 2017.
15. Cheng Jianping#, Zhang Hongna#, , Cai Weihua, Li Sining, Li Fengnhen, Effect of polymer additives on heat transport and large scale circulation in turbulent Rayleigh-Bénard convection, Physics Review E, 96(1), July 2017 (Co-first author)
16. Zhang Hongna, Li Dongyang, Li Xiaobin, Cai Weihua, Li Fengchen, Numerical simulation of heat transfer process of viscoelastic fluid flow at high Weissenberg number by log-conformation reformulation, Journal of Fluids Engineering -Transactions of the ASME , April 2017, DOI: 10.1115/1.4036592
17. Li Yuke, Zheng Zhiying, Zhang Hongna*, Li Fengchen*, Qian Shizhi, Joo Sang Woo, Kulagina V. Ludmila, Numerical study on secondary flows of viscoelastic fluids in straight ducts: Origin analysis and parametric effects, Computers & Fluids, 2017, 158
18. Li Dongyang, Zhang Hongna*, Cheng Jianping, Li Xiaobin*, Li Fengchen, Qian Shizhi, Joo Sang-Woo. Numerical Simulation of Heat Transfer Enhancement by Elastic Turbulence in a Curvy Channel. Microfluidics and Nanofluidics, 2017, 21:25.
19. Li Dongyang, Li XiaoBin*, Zhang Hongna*, Li Fengchen, Qian Shizhi, Joo Sang-Woo. Efficient heat transfer enhancement by elastic turbulence with polymer solution in a curved microchannel. Microfluidics and Nanofluidics, 2017, 21:10
20. Zhang Hongna, Li Fengchen, Li Xiaobin*, Li Dongyang, Cai Weihua*, Yu Bo. Characteristics and generation of elastic turbulence in a three-dimensional parallel plate channel using direct numerical simulation. Chinese Physics B, 2016, 25(9):094701
21. Li Sining#, Zhang Hongna#, , Li Xiaobin, Li Qian, Li Fengchen, Qian Shihi, Sang Woo Joo, Numerical study on the heat transfer performance of non-Newtonian fluid flow in a manifold microchannel heat sink. Applied Thermal Engineering, 2016. (co-first author)
22. Zhang Hongna, Yokomine Takehiko, Kunugi Tomoaki, Turbulence modulation of the upward turbulent bubbly flow in vertical ducts, Nuclear Engineering and Technology, 2015, 417:513-522


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