柏立战，男，1983年生，北京航空航天大学航空科学与工程学院人机与环境工程系，博士，副教授，博士生/硕士生导师。主要从事航空航天热管理、高效传热技术以及高热流密度冷却技术等方面的研究工作。在高热流密度冷却技术方面，基于协同强化的思想，提出干道式多孔结构应用于沸腾传热强化，实现了临界热流密度的突破，受到多位传热领域国际知名学者的肯定和积极评价。在航天器热控制方面，重点针对先进两相传热器件环路热管开展系统深入的研究工作，突破了环路热管系统设计、核心部件研制、精准工质充装及系统运行检测等一系列核心技术，自主设计开发了多种基于环路热管的新型高效热控系统，受到许多国际同行的积极评价。近年来，先后主持国家自然科学基金、北京市自然科学基金、欧盟REA资助项目等十余项基础或应用基础课题研究，共发表国内外学术期刊/会议论文近100篇，其中国际期刊SCI论文50余篇，主要发表于《Applied Physics Letters》、《Energy Conversion and Management》、《International Journal of Heat and Mass Transfer》、《International Journal of Thermal Sciences》、《Applied Thermal Engineering》等热科学领域国际权威期刊，SCI引用近900次。受邀担任热科学领域十余种国际期刊的审稿人。授权国家发明专利两项，受理3项。获评2014年度欧盟居里学者奖学金，获评首届航空宇航科学与技术学科全国优秀博士学位论文，获评中国铁道科学研究院“茅以升杯”青年科技创新、创意大赛一等奖，入选北京航空航天大学青年拔尖人才支持计划。教学方面,讲授本科生课程《热工基础》、《专业课程设计》以及研究生课程《高等工程热力学》，获评首届全国高等学校航空航天类专业毕业设计大赛优秀指导教师二等奖；获评北京航空航天大学校级优秀博士学位论文/优秀硕士学位论文指导教师等。

教育背景

2006/09－2012/06，北京航空航天大学，航空科学与工程学院人机与环境工程系，博士

2005/09－2006/07，北京航空航天大学，航空科学与工程学院人机与环境工程系，硕士

2001/10－2005/07，北京航空航天大学，航空科学与工程学院人机与环境工程系，学士

工作经历

2015/08－至今，北京航空航天大学，航空科学与工程学院人机与环境工程系，副教授

2012/07－2015/07，北京航空航天大学，航空科学与工程学院人机与环境工程系，讲师

访学经历

2014/09－2015/08，英国利兹大学，化学与过程工程学院，居里学者

2010/11－2011/12，美国佐治亚理工学院，工学院机械工程系，访问学者

代表性论文

[1] Yuandong Guo, Huning Yang, Weichun Fu, Lizhan Bai*, Jianyin Miao, Temperature control of star sensor baffle using 3D printing and PCM thermal energy storage technology, International Journal of Heat and Mass Transfer 165 (2021) 120644

[2] Lizhan Bai, Jingwei Fu, Liping Pang, Yongbo Tao, Guiping Lin, Dongsheng Wen, Experimental study on a dual compensation chamber loop heat pipe with dual bayonet tubes, Applied Thermal Engineering 180 (2020) 115821

[3] Lizhan Bai, Yongbo Tao, Yuandong Guo, Guiping Lin，Startup characteristics of a dual compensation chamber loop heat pipe with an extended bayonet tube，International Journal of Heat and Mass Transfer 148 (2020) 119066

[4] Lizhan Bai, Jingwei Fu, Guiping Lin, Chengshuang Zhou, Dongsheng Wen, Quiet power-free cooling system enabled by loop heat pipe, Applied Thermal Engineering 155 (2019) 14-23

[5] Yuandong Guo, Guiping Lin, Jiang He, Lizhan Bai*, Hongxing Zhang, Jianyin Miao, Experimental study on the supercritical startup and heat transport capability of a neon-charged cryogenic loop heat pipe, Energy Conversion and Management 134 (2017) 178-187

[6] Yuandong Guo, Guiping Lin, Lizhan Bai*, Xueqin Bu, Hongxing Zhang, Jiang He, Jianyin Miao, Dongsheng Wen, Experimental study on the supercritical startup of cryogenic loop heat pipes with redundancy design, Energy Conversion and Management 118 (2016) 353-363

[7] Lizhan Bai, Lianpei Zhang, Guiping Lin, G P Peterson, Pool boiling with high heat flux enabled by a porous artery structure, Applied Physics Letter 108(24) (2016), paper No. 233901

[8] Lizhan Bai, Lianpei Zhang, Jinghui Guo, Guiping Lin, Xueqin Bu, Dongsheng Wen, Evaporation/boiling heat transfer characteristics in an artery porous structure, Applied Thermal Engineering 104 (2016) 587-595

[9] Tao Wang, Liang Wang, Lizhan Bai*, Guiping Lin, Xueqin Bu, Xiangyang Liu, Guanghui Xie, Experimental study on the performance of a liquid cooling garment with the application of MEPCMS, Energy Conversion and Management 103 (2015) 943-957

[10] Lizhan Bai, Lianpei Zhang, Guiping Lin, Jiang He, Dongsheng Wen, Development of cryogenic loop heat pipes: A review and comparative analysis, Applied Thermal Engineering 89 (2015) 180-191

[11] Lizhan Bai, Jinghui Guo, Guiping Lin, Jiang He, Dongsheng Wen, Steady-state modeling and analysis of a loop heat pipe under gravity-assisted operation, Applied Thermal Engineering 83 (2015) 88-97

[12] Lizhan Bai, Guiping Lin, Hongxing Zhang, Dongsheng Wen. Effect of evaporator tilt on the operating temperature of a loop heat pipe without a secondary wick. International Journal of Heat and Mass Transfer 77(2014) 600-603

[13] Lizhan Bai, Guiping Lin, Zuodong Mu, Dongsheng Wen. Theoretical analysis of steady-state performance of a loop heat pipe with a novel evaporator, Applied Thermal Engineering 64(2014) 233-241

[14] Lizhan Bai, Guiping Lin, Hongxing Zhang, Jianyin Miao, Dongsheng Wen. Effect of component layout on the operation of a miniature cryogenic loop heat pipe. International Journal of Heat and Mass Transfer 60 (1)( 2013) 61-68

[15] Lizhan Bai, Guiping Lin, G. P. Peterson. Evaporative heat transfer analysis of a heat pipe with hybrid axial groove. Journal of Heat Transfer-Transactions of the ASME 135(3)( 2013), paper No. 031503

[16] Lizhan Bai, Guiping Lin, Hongxing Zhang, Jianyin Miao, Dongsheng Wen. Operating characteristics of a miniature cryogenic loop heat pipe, International Journal of Heat and Mass Transfer 55 (25-26)( 2012) 8093–8099

[17] Lizhan Bai, Guiping Lin, Hongxing Zhang, Jianyin Miao, Dongsheng Wen. Experimental study of a nitrogen-charged cryogenic loop heat pipe, Cryogenics 52(2012) 557-563

[18] Lizhan Bai, Guiping Lin, G. P. Peterson, Dongsheng Wen. Modeling and analysis of supercritical startup of a cryogenic loop heat pipe, Journal of Heat Transfer-Transactions of the ASME 133(12) (2011), paper No. 121501

[19] Lizhan Bai, Guiping Lin, Dongsheng Wen. Parametric analysis of steady-state operation of a CLHP, Applied Thermal Engineering 30(2010) 850-858

[20] Lizhan Bai, Guiping Lin, Dongsheng Wen. Modeling and analysis of startup of a LHP, Applied Thermal Engineering 30(2010) 2778-2787

[21] Lizhan Bai, Guiping Lin, Dongsheng Wen, Jianting Feng. Experimental investigation of startup behaviors of a dual compensation chamber loop heat pipe with insufficient fluid inventory, Applied Thermal Engineering 29(2009)1447-1456

[22] Lizhan Bai, Guiping Lin, Hongxing Zhang, Dongsheng Wen. Mathematical modeling of steady state operation of a loop heat pipe, Applied Thermal Engineering 29(2009) 2643-2654

E-mail：bailizhan@buaa.edu.cn