基本信息

 

工作经历:

2021年1月-2021年5月,助理研究员,天津大学机械工程学院;

2021年6月-至今,助理教授,西安交通大学能动学院

 

教育经历:

2011年9月-2015年7月,学士,天津大学;

2015年9月-2021年1月,博士,天津大学;

2018年11月-2019年11月,联合培养博士,美国加州大学欧文分校

联系方式

邮箱:zhangguobin@xjtu.edu.cn

 

站点计数器

研究领域与主要成果

主要研究方向:

 

燃料电池水热管理与建模仿真;电解池多物理场仿真;计算传热传质;温差发电器结构优化

 

专著:

 

1.    焦魁、张国宾、杜青、樊林浩、焦道宽、王博文、武承如,多物理场传热传质基础与建模实例,天津:天津大学出版社,2022年

2.    屈治国、王宁、张国宾、胡宝宝、涂正凯、王文凯、朱跃强、赖涛、杨海涛,氢燃料电池多物理过程建模与仿真,北京:机械工业出版社,2024年
3.    焦魁、王博文、杜青、张国宾、杨子荣、邓豪、谢旭,质子交换膜燃料电池水热管理,北京:科学出版社,2020年
4.    Zhang G, Wang Y, Wu L, Hong P, Jiao K. Chapter 13: Porous media flow field for proton exchange membrane fuel cells, In PEM Fuel Cells. Editor: Kaur G. Elsevier, 2021

期刊论文:

 

SCI 期刊论文 (60篇,谷歌学术总引用3000余次,第一/通讯作者24篇):

1.    Zhang G, Qu Z*, Tao W, Mu Y, Jiao K, Xu H, and Wang Y*. Advancing next-generation proton-exchange membrane fuel cell development in multi-physics transfer. Joule, 2024, 8: 1-19 (国际顶级期刊,影响因子:39.8). 
2.    Zhang G, Qu Z*, Tao W, Wang X, Wu L, Wu S, Xie X, Tongsh C, Huo W, Bao Z, Jiao K* and Wang Y*. Porous Flow Field for Next-Generation Proton Exchange Membrane Fuel Cells: Materials, Characterization, Design and Challenges. Chemical Reviews, 2023, 123: 989-1039 (国际顶级期刊,影响因子:62.1).
3.    Wu L, Zhang G*, Shi X, Pan Z, Xie B, Huo W, Jiao K*, An L*. All-scale investigation of a commercial proton exchange membrane fuel cell with partially narrow channels. Journal of Power Sources, 2024, 589: 233779.
4.    Wu L, Zhang G*, Xie B, Huo W, Jiao K*, An L*. Elucidating the automobile proton exchange membrane fuel cell of innovative double-cell structure by full-morphology simulation. International Journal of Heat and Mass Transfer, 2023, 217: 124666.
5.    Zhang G, Qu Z*, and Wang Y. Proton exchange membrane fuel cell of integrated porous bipolar plate–gas diffusion layer structure: Entire morphology simulation. eTransportation, 2023, 17:100250.
6.    Huo W, Xie B, Wu S, Wu L, Zhang G*, Zhang H, Qin Z, Zhu Y, Wang R*, and Jiao K*. Full-scale multiphase simulation of automobile PEM fuel cells with different flow field configurations. International Journal of Green Energy, 2023, 20(1):1-16. 
7.    Zhang G1, Wu L1, Tongsh C1, Qu Z*, Wu S, Xie B, Huo W, Du Q, Wang H, An L, Wang N, Xuan J, Chen W*, Xi F, Wang Z, and Jiao K*. Structure Design for Ultrahigh Power Density Proton Exchange Membrane Fuel Cell. Small Methods, 2023, 7(3): 2201537. 
8.    Xie B1, Zhang H1, Huo W, Wang R, Zhu Y, Wu L, Zhang G*, Ni M*, and Jiao K*. Large-scale three-dimensional simulation of proton exchange membrane fuel cell considering detailed water transition mechanism. Applied Energy, 2023, 331: 120469.
9.    Zhang G, Qu Z*, and Wang Y. Full-scale three-dimensional simulation of air-cooled proton exchange membrane fuel cell stack: temperature spatial variation and comprehensive validation. Energy Conversion and Management, 2022, 270: 116211. 
10.    Wu L, An L, Jiao D, Xu Y, Zhang G*, and Jiao K*. Enhanced oxygen discharge with structured mesh channel in proton exchange membrane electrolysis cell. Applied Energy, 2022, 323: 119651.
11.    Zhang G1, Wu L1, Qin Z, Wu J, Xi F, Mou G, Wang Y*, and Jiao K*, A comprehensive three-dimensional model coupling channel multi-phase flow and electrochemical reactions in proton exchange membrane fuel cell. Advances in Applied Energy, 2021, 2:100033. 
12.    Wu L1, Zhang G1, Xie B, Tongsh C and Jiao K*, Integration of the detailed channel two-phase flow into three-dimensional multi-phase simulation of proton exchange membrane electrolyzer cell. International Journal of Green Energy, 2021, 18 (6):541-555
13.    Zhang G, Bao Z, Xie B, Wang Y*, and Jiao K*. Three-dimensional multi-phase simulation of PEM fuel cell considering the full morphology of metal foam flow field. International Journal of Hydrogen Energy, 2021, 46 (3): 2978-2989 (ESI高被引) 
14.    Zhang G, Wu L, Jiao K, Tian P, Wang B, Wang Y*, and Liu Z*. Optimization of porous media flow field for proton exchange membrane fuel cell using a data-driven surrogate model. Energy Conversion and Management, 2020, 226: 113513.
15.    Zhang G, Wu J, Wang Y*, Yin Y, and Jiao K*. Investigation of current density spatial distribution in PEM fuel cells using a comprehensively validated multi-phase non-isothermal model. International Journal of Heat and Mass Transfer, 2020, 150: 119294. 
16.    Zhang G, Yuan H, Wang Y*, and Jiao K*. Three-dimensional simulation of a new cooling strategy for proton exchange membrane fuel cell stack using a non-isothermal multiphase model. Applied Energy, 2019, 255: 113865.
17.    Zhang G, Xie X, Xie B, Du Q, and Jiao K*. Large-scale multi-phase simulation of proton exchange membrane fuel cell. International Journal of Heat and Mass Transfer, 2019, 130: 555-563. 
18.    Zhang G, Xie B, Bao Z, Niu Z, and Jiao K*. Multi-phase simulation of proton exchange membrane fuel cell with 3D fine mesh flow field. International Journal of Energy Research, 2018, 42(15): 4697-4709. 
19.    Zhang G, and Jiao K*. Three-dimensional multi-phase simulation of PEMFC at high current density utilizing Eulerian-Eulerian model and two-fluid model. Energy Conversion and Management, 2018, 176: 409-421. 
20.    Zhang G, and Jiao K*. Multi-phase models for water and thermal management of proton exchange membrane fuel cell: A review. Journal of Power Sources, 2018, 391: 120-133. 
21.    Zhang G, and Jiao K*. Three-Dimensional Simulation of Water Management for High-Performance Proton Exchange Membrane Fuel Cell. SAE International Journal of Alternative Powertrains, 2018, 7(2018-01-1309). 
22.    Zhang G, Fan L, Sun J, and Jiao K*. A 3D model of PEMFC considering detailed multiphase flow and anisotropic transport properties. International Journal of Heat and Mass Transfer, 2017, 115: 714-724. 
23.    Zhang G, Jiao K*, Niu Z, Diao H, Du Q, Tian H, and Shu G. Power and efficiency factors for comprehensive evaluation of thermoelectric generator materials. International Journal of Heat and Mass Transfer, 2016, 93: 1034-1037. 
24.    Zhang G, Fan L, Niu Z, Jiao K*, Diao H, Du Q, and Shu G. A comprehensive design method for segmented thermoelectric generator. Energy Conversion and Management, 2015, 106: 510-519.

 

授权发明专利:

 

1.    焦魁,张国宾,樊林浩,邓豪. 质子交换膜燃料电池内部水分布预测方法. 专利号:ZL 201710098474.8,发明,已授权. 
2.    焦魁,张国宾,谢彪. 质子交换膜燃料电池全电池三维两相模型建立方法. 专利号:ZL201810513093.6,发明,已授权.

 

标准:

 

1.    张煜圣,张国宾,胡杨,周奋,万忠民,潘伟杰,张玮,潘健亭,黎剑豪,陈伟全,李金良,戴书生,黄小美. 富氢天然气,家用燃气燃烧器具,燃气灶具的特殊要求. T/GGAA 005.4-2023,广东省燃气具协会团体标准,2023-12-24
2.    屈治国,张松松,刘建敏,齐国利,张剑飞,朱小文,管立江,杨涛,温廷东,王凡,郝国华,辛耀武,王日有,江智元,张国宾,周必云,李一兵,颜冬. 典型管壳式热交换器能效评价. DB 14/T 2724-2023,山西省地方标准,2023-03-21. 

 

 

荣誉/科研奖励:

 

1.    2023年,2022年,连续两年入选全球前2%顶尖科学家“年度影响力”榜单
2.    2021年,质子交换膜燃料电池三维多相建模与多孔介质流场设计,中国汽车工程学会优秀博士学位论文奖,中国汽车工程学会
3.    2021年,先进车用低碳动力装置的电化学热物理过程理论及仿真方法,中国内燃机学会自然科学奖一等奖(第五完成人),中国内燃机学会
 

主持/参与科研项目:

 

1.    国家自然科学基金青年基金,燃料电池碳载铂催化剂降解诱导的催化层结构演变与热质传输机理研究,5220060402,30万元,2023-2025,主持
2.    国家重点研发计划子课题:氢气高效分离增压设备与家用纯氢/掺氢燃烧器具开发,2021YFB4001604,540万元,2021-2024,主持
3.    国家重点研发计划子课题:混合发电系统多物理场热质传输机理与建模仿真,2022YFB4003704,120万元,2023-2026,主持
4.    中国博士后科学基金面上项目(一等),氢燃料电池超低铂催化层多物理场传质机理与孔结构调控策略研究,2022M710108,12万元,2022-2024,主持
5.    内燃机燃烧学国家重点实验室开放课题,超高电流密度燃料电池堆热质传输与衰减耦合机理研究,K2023-12,10万元,2023-2025,主持
6.    中央高校基本科研业务经费,车载大尺度燃料电池电堆“气-水-热-电”传输与电化学反应耦合机理研究,10万元,2021-2023,主持
7.    中汽研新能源汽车检验中心(天津)有限公司委托横向项目,燃料电池分布特性仿真测试,4.5万元,2023-2024,主持
 

分会主席:

 

1.    2023年,The 4th International Conference on Energy and AI, 分会主席,主办单位:青海民族大学

 

特邀报告:

 

1.    2023年,2023(第十六届)国际汽车技术年会暨汽车创新技术大奖颁奖典礼,车用高功率密度燃料电池结构设计,主办单位:机械工业信息研究院
2.    2023年,第一届全国储能科学与工程博士生学术论坛,风冷燃料电池堆全三维模拟仿真技术开发,主办单位:天津大学,中国内燃机学会储能技术分会
3.    2023年,15th International Green Energy Conference (IGEC XV), Structure design to boost the power density of proton exchange membrane fuel cells, 主办单位:国际绿色能源协会,英国格拉斯哥大学
4.    2023年,International Congress on Energy Chemistry and Engineering, Porous Flow Field for Next-generation Proton Exchange Fuel Cells of Ultrahigh Power Density, 主办单位:电子科技大学
5.    2023年,面向工程应用的氢燃料电池模拟仿真技术开发,长寿命燃料电池四川省重点实验室第一届第三次学术委员会会议,主办单位:中国东方电气集团有限公司
6.    2022年,2022 Exploration – Energy 国际云论坛,风冷式质子交换膜燃料电池堆的三维全尺寸数值模拟,主办单位:Exploration期刊