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姓名:梁嘉林 职称:副教授 导师类型:硕导 团队名称:碳中和团队 邮箱:liangjialin0929@163.com |
研究领域
主要开展微纳流动传热及热管理技术、锂离子电池电化学-热特性及老化特性等方面研究;主持和参与国家自然科学基金、广东省自然科学基金等项目若干项。发表论文20余篇,其中ESI高引论文3篇。申请及授权50余项专利,其中授权8项发明。具有较丰富的产业化及工程经验,与比亚迪、中兴等企业在电池热安全、电子器件散热等方面开展合作研发。
教育经历
2015年9月–2020年8月:华南理工大学 动力工程及工程热物理专业 博士学位
2011年9月–2015年6月:广东工业大学 能源与动力工程专业 学士学位
工作经历
2025年7月–今:北京理工大学(珠海) 能源与交通学域 副教授
2024年5月–2025年6月:哈尔滨工业大学(深圳) 机器人与先进制造学院 副研究员
2021年7月–2023年12月:哈尔滨工业大学(深圳) 机器人与先进制造学院 博士后
学术成果
[1]Chen C, …, Liang J*, et al. Development of an origami microfluidic paper-based analytical device for highly sensitive detection of dual biomarkers in artificial saliva. Microchemical Journal. 2025,210:112966
[2]Du J, .., Liang J*, et al. Fabrication and characterization of novel rectangular cross-sectional microchannel wicks for ultra-thin flat heat pipes. Int. J. Therm Sci, 2025,211:109718
[3]Li R, Gan Y*, Liang J. Experimental study on the thermal management performance of battery with ultra-thin vapor chamber under liquid cooling condition. Int. J. Heat Mass Trans. 2025,240:126660
[4]Li R, Gan Y*, Liang J. Experimental study on heat transfer performance of mesh-type ultra-thin vapor chamber for large-area pouch battery. J Energy Storage. 2025,105:114667.
[5]Li R, Gan Y*, Liang J. Influence of vapor core design on thermal and hydraulic performance of mesh-type ultra-thin vapor chamber. Appl Therm Eng. 2024,246:122912.
[6]Yang H, Liang J*,et al. Experimental Study on the thermal Performance Enhancement of a Flat Plate Heat Pipe with Surface-treated Metal Foam wick. Appl Therm Eng. 2025,274:126572
[7]Liang J, et al. Aging characteristics in graphite electrodes for LiFePO4 batteries: Effect of design parameters and optimization. Int. J. Heat Mass Trans. 2024,223:125223.
[8]Yang H, Liang J*,et al. Performance Enhancement of a Novel Thermoelectric Self-cooling System for Electronic Devices. Int Commun Heat Mass. 2024:108286
[9]Lv C, Xu L, Du J, Liang J*, et al. Capillary-driven evaporation of superhydrophilic copper foam with ultra-high porosity, Int Commun Heat Mass. 2024,152:107318
[10]Liang J*, et al, Numerical analysis on the aging characteristics of a LiFePO4 battery: Effect of active particle sizes in electrodes, J Energy Storage, 2023, 67: 107546.
[11]Liang J, Gan Y*, et al. Investigation on the thermal performance of a battery thermal management system using heat pipe under different ambient temperatures. Energy Conver Manage, 2018, 155:1-9.
[12]Liang J, Gan Y*, et al. Thermal and electrochemical performance of a serially connected battery module using a heat pipe-based thermal management system under different coolant temperatures. Energy, 2019, 189:116233.
[13]Liang J, Gan Y*, et al. Thermal-electrochemical simulation of electrochemical characteristics and temperature difference for a battery module under two-stage fast charging, J Energy Storage, 2020, 29:101307.
[14]Liang J, Gan Y*, et al. Multilayer electrochemical-thermal coupled modeling of unbalanced discharging in a serially connected lithium-ion battery module, Energy, 2020,209: 118429.
[15]Liang J, Gan Y*, et.al, Numerical analysis of capacity fading for a LiFePO4 battery under different current rates and ambient temperatures, Int J Heat Mass Transfer, 2021, 165: 120615
[16]Wang J, Gan Y*, Liang J, et al. Sensitivity analysis of factors influencing a heat pipe-based thermal management system for a battery module with cylindrical cells. Appl Therm Eng, 2019, 151: 475-485.
[17]Gan Y*, Wang J, Liang J, et al. Development of thermal equivalent circuit model of heat pipe-based thermal management system for a battery module with cylindrical cells. Appl Therm Eng, 2020, 164,114523.
[18]Tan M, Gan Y*, Liang J, et al. Effect of initial temperature on electrochemical and thermal characteristics of a lithium-ion battery during charging process, Appl Therm Eng, 2020, 177: 115500
[19]Gan Y*, He L, Liang J, et al. A numerical study on the performance of a thermal management system for a battery pack with cylindrical cells based on heat pipes, Appl Therm Eng, 2020,179:115740
[20]Yao M, Gan Y*, Liang J, et al, Performance simulation of a heat pipe and refrigerant-based lithium-ion battery thermal management system coupled with electric vehicle air-conditioning, Appl Therm Eng, 2021, 191 :116878
教学工作
高等传热传质学
荣誉奖励
1.第二届全国博士后创新创业大赛铜奖
2.全国优秀创新创业博士后
3.2023年深圳市优秀博士后
社会兼职
1.广东省制冷学会-热管理专业委员会 委员
2.Journal of Energy Storage, Energy等期刊审稿人
3.哈尔滨工业大学(深圳) 高效热管理技术产业化团队 研发负责人(2021.10–2025.4) 高级工程师