張恒運

姓名：張恒運                職稱：教授

專業：車輛工程      學歷層次：博士

辦公室地點：松江區龍騰路333號8B615                

電子郵箱：zhanghengyun@sues.edu.cn

研究方向：新能源汽車電池測控與熱管理，相變儲能，電子散熱

主講課程：熱力學基礎，熱工基礎，車輛新能源技術

個人簡介：(教育背景、工作經歷)

博士生導師，IEEE高級會員，松江區拔尖人才。1994年獲得中國科技大學熱科學與能源工程系本科學位，2001年獲得新加坡南洋理工大學機械與制造工程博士學位，先后在新加坡微電子研究所、美國超微半導體、道康寧公司擔任高級工程師與研究員，2014年聘任上海工程技術大學教授。擔任ASME MNHMT 2016、 IEEE EPTC2014-2021、ISLBFS2021國際會議技術委員會成員，主持國家自然科學1項、上海科委和自然科學基金項目2項，主持與主要參與國家級項目、企業項目20多項。發表論文110篇，Google Scholar 引用率1700多次，申請專利40多項。獲得中國發明協會創業創新獎二等獎、ICEPT 2010杰出論文獎、ITHERM 2004最佳論文獎。指導碩士研究生34人、博士生3人，獲得上海市工程熱物理學會優秀學位論文獎2項。

主要科研成果：（代表性論文、專利、著作等）

1.H.Y. Zhang, F.X. Che, T. Lin, W.S. Zhao, Modeling, analysis, design and tests for electronics packaging beyond Moore [M], 2020, 十三五國家重點圖書, Elsevier 與化工出版社聯合出版.  

2.Jiajun Zhu, Hengyun Zhang#, Guoping Wu, Shunliang Zhu, Wei Liu, Thermal performance of cylindrical battery module with both axial and radial thermal paths: numerical simulation and thermal resistance network analysis, J. Energy Storage 2022, 49: 104197.

3.X. Xu, Y. Xu, H. Zhang#, S. Zhu, H. Wang. Balanced structural optimization of air-cooling battery module with single-layer sleeved heat spreader plate. Int. J. Energy Res. 2022, 46:3458–3475.  

4.Dezhu Huang, Hengyun Zhang,# Xiaojun Wang, Xinghua Huang, Haifeng Dai, Experimental investigations on the performance of mini-channel evaporator refrigeration system for thermal management of power batteries,  Int. J. Refrig. 2021, 130: 117–127. 

5.Yefei Xu, Hengyun Zhang#, Xiaobin Xu, Xiaolin Wang, Numerical analysis and surrogate model optimization of air-cooled battery modules using double-layer heat spreading plates, Int. J. Heat Mass Transfer, 2021, 176: 121380. 

6.Shunbo Liu, Hengyun Zhang#, Xiaobin Xu, A study on the transient heat generation rate of lithium-ion battery based on full matrix orthogonal experimental design with mixed levels, J. Energy Storage, 2021, 36: 102446.

7.L Sheng, Z Zhang, L Su#, Hengyun Zhang#, H Zhang, et al, A calibration calorimetry method to investigate the thermal characteristics of a cylindrical lithium-ion battery. International J. Thermal Sciences, 2021, 165: 106891.  

8.Fengze Hou, Hengyun Zhang#, Dezhu Huang, et al, Microchannel Thermal Management System with Two-Phase Flow for Power Electronics over 500 W/cm2 Heat Dissipation, IEEE Trans. Power Electronics, 2020, 35(10): 10592-10600.

9.Fengze Hou, Wenbo Wang, Hengyun Zhang#, et al, Experimental evaluation of a compact two-phase cooling system for high heat flux electronic packages, Applied Thermal Engineering, 2019, 163: 114338.

10.Le Jiang, Hengyun Zhang#, Junwei Li, Peng Xia, Thermal performance of a cylindrical battery module impregnated with PCM composite based on thermoelectric cooling, Energy 2019, 188: 116048. 

11.Hengyun Zhang#, Qingyu Wu, Shen Xu, Experimental Investigation of Thermal Performance of Large-Sized Battery Module Using Hybrid PCM and Bottom Liquid Cooling Configuration, Applied Thermal Engineering, 2019, 159: 113968.

12.Lei Sheng, Lin Su#, Hengyun Zhang#, Experimental determination on thermal parameters of prismatic lithium ion battery cells, Int. J. Heat Mass Transfer, 2019, 139: 231–239.    

13.Limin Song, Hengyun Zhang#, Chun Yang, Thermal analysis of conjugated cooling configurations using phase change material and liquid cooling techniques for a battery module, Int. J. Heat Mass Transfer, 2019, 133: 827–841. （他引60次）

14.Lei Sheng, Lin Su#, Hengyun Zhang#, et al, An improved calorimetric method for characterizations of the specific heat and the heat generation rate in a prismatic lithium-ion battery cell, Energy Conversion and Management, Energy Conversion and Management, 2019 180: 724–732.

15.Huan Yang, Hengyun Zhang#, et al, Numerical analysis and experimental visualization of phase change material melting process for thermal management of cylindrical power battery, Applied Therm. Engineering, 2018,128: 489-499. （他引30次）

16.Hengyun Zhang#, Zhaoqiang Wang, Cross-Flow Heat Exchanger: Volume Averaging Formulation of a Unit Cell Model and Thermal Performance Analysis, ASME J. Heat Transfer 2017,139(05): 051801.

17.Zhiwei Wang, Hengyun Zhang#, Xin Xia, Experimental investigation on the thermal behavior of cylindrical battery with composite paraffin and fin structure, Int. J. Heat Mass Transfer, 2017, 109: 958-970. (他引60次)

18.H. Y. Zhang et al, Analysis of thermoelectric cooler performance for high power electronic packages, Applied Thermal Engineering 2010, 30:561-568.（他引108次）

19.李俊偉，張恒運^#，吳笑宇，王影，基于熱電制冷的動力電池模組散熱性能研究，儲能科學與技術，2020， 9（6）： 1790-1797. 

20.吳笑宇，張恒運^#，朱澤華，宋利民，電池模組軸向-徑向協同散熱的數值分析，工程熱物理學報，2020， 41（7）：1784-1791.     

21.吳青余, 張恒運^#, 李俊偉. 校準量熱法測量鋰電池比熱容和生熱率. 汽車工程, 2020, 42(1): 59-65.

22.張恒運,鄧宇晨，嚴曉，陳浩，王巖松，一種帶翅片和泡沫導熱結構的復合散熱裝置，發明專利授權ZL201510705796.5.

23.張恒運,王之偉，夏欣，金光燦，一種動力電池的散熱裝置，發明專利授權ZL201610078011.0.

24.張恒運，王兆強，許莎，王之偉，一種強制對流動力電池散熱裝置，發明專利授權ZL201610296577.0

25.張恒運，隋楊，龔元明，牛甜甜，一種基于熱電效應的電池模組熱管理方法和裝置, 發明專利授權，ZL 201610944434.6