李倍，博士，副教授，于2018年在法国勃艮第-弗朗什-孔泰大学(Université Bourgogne Franche-Comté)，电气工程专业，获工学博士学位。于2012年和2015年在北京交通大学，分别获得电气工程专业本科学位和硕士学位。自2015到2019年，在法国国家科学研究中心（CNRS）FCLAB实验室从事科学研究。2019年至2025年，担任深圳大学能源科学与工程系助理教授。2025至今，担任暨南大学国际能源学院绿色通道副教授。至今以第一作者发表SCI/EI英文论文30余篇，第一作者SCI期刊论文18篇，包括IEEE Transactions on Intelligent Transportation Systems, eTransportation, Applied energy，Energy等国际知名期刊，其中包括一篇ESI高被引论文，单篇最高被引190余次。长期担任10余种国内外期刊审稿人。担任2020CPESE国际会议技术委员会委员，担任2021CPESE国际会议Session Chair。深圳市海外高层次人才，深圳市鹏城优才。

2025年-至今，暨南大学，国际能源学院，绿色通道副教授；

2019年-2025年，深圳大学，能源科学与工程系，助理教授；

2015年-2019年，法国国家科学研究中心（CNRS），FCLAB实验室从事科学研究；

1. Li Bei, Jiangchen Li, Zhixiong Li*, Miguel Angel Sotelo, Real-time Hydrogen Refuelling of the Fuel Cell Electric Vehicle through the Coupled Transportation Network and Power System [J]. IEEE Transactions on Intelligent transportation systems, 2024, 25(7): 8181-8192.

2. Li Bei*, Jiangchen Li, Zhixiong Li, A novel strategy for coordinated regulating the coupled distribution grid–transportation network system through adjusting hydrogen flow via a joint electricity price–hydrogen price–charging price mechanism [J]. International Journal of Hydrogen Energy, 2024 (85): 59-74.

3. Li Bei*, Jiangchen Li, Bingcong Jian. Improve multi-energy supply microgrid resilience using mobile hydrogen trucks based on transportation network [J]. eTransportation, 2023, 18: 100265.

4. Li Bei*, Jiangchen Li, Bingcong Jian. Price-guided cooperation of combined offshore wind and hydrogen plant, hydrogen pipeline network, power network, and transportation network [J]. IEEE Access, 2023, 11.

5. Li Bei*, Jiangchen Li, Mei Han.Deep Reinforcement Learning-Based Charging Price Determination Considering the Coordinated Operation of Hydrogen Fuel Cell Electric Vehicle, Power Network and Transportation Network [J]. IEEE Access, 2023, 11: 75508-75521.

6. Li Bei*, Jiangchen Li. Sizing and operation of a pure renewable energy based electric system through hydrogen [J]. Energy Reports, Volume 8, Supplement 1, 2022, Pages 1391-1403.

7. Li Bei*, Li Jiangchen. Probabilistic sizing of a low-carbon emission power system considering HVDC transmission and microgrid clusters[J]. Applied Energy, 2021, 304: 117760.

8. Li Bei*, Miao Hongzhi, Li Jiangchen. Multiple hydrogen-based hybrid storage systems operation for microgrids: A combined TOPSIS and model predictive control methodology[J]. Applied Energy, 2020, 283:116303.

9. Li Bei*, Roche Robin. Real-time dispatching performance improvement of multiple multi-energy supply microgrids using neural network based approximate dynamic programming[J]. Frontiers in Electronics, 2021, 2:637736.

10. Li Bei*, Roche Robin. Optimal scheduling of multiple multi-energy supply microgrids considering future prediction impacts based on model predictive control[J]. Energy, 2020, 197: 117180.

11. Li Bei*, Li Jiangchen. A three-stage intelligent coordinated operation for grouped hydrogen-based hybrid storage systems considering the degradation and the future impacts based on multi-criteria decision making[J]. International Journal of Hydrogen Energy, 2021, 46:6817-6834.

12. Li Bei*, Li Jiangchen. Sizing versus Price: How they influence the energy exchange among large numbers of hydrogen-centric multi-energy supply grid-connected microgrids[J]. Energy Reports, 2020, 6:1557-1567.

13. Li Bei*, Jiangchen Li. A three-layer coordinated operation methodology for multiple hydrogen-based hybrid storage systems [J]. Energy Reports, 2020, 6, Supplement 9:  1525-1536.

14. Li Bei*, Roche Robin, Paire Damien, and Miraoui Abdellatif. A price decision approach for multiple multi-energy-supply microgrids considering demand response[J]. Energy, 2019, 167: 117-135.

15. Li Bei*, Roche Robin, Paire Damien, and Miraoui Abdellatif. Optimal sizing of distributed generation in gas/electricity/heat supply networks[J]. Energy, 2018, 151: 675-688.

16. Li Bei*, Roche Robin, Paire Damien, and Miraoui Abdellatif. Coordinated scheduling of a gas/electricity/heat supply network considering temporal-spatial electric vehicle demands[J]. Electric power systems research, 2018, 163:382-395.

17. Li Bei*, Roche Robin, and Miraoui Abdellatif. Microgrid sizing with combined evolutionary algorithm and MILP unit commitment[J]. Applied energy, 2017, 188: 547-562.

18. Li Bei*, Roche Robin, Paire Damien, and Miraoui Abdellatif. Sizing of a stand-alone microgrid considering electric power, cooling/heating,hydrogen loads and hydrogen storage degradation[J]. Applied Energy, 2017, 205: 1244-1259.