姓名：赵东琦

性别：男

职称：特设副教授/硕士生导师

研究方向：燃料电池系统健康感知与控制、电解制氢系统健康感知与控制

邮箱：dongqi_zhao@whut.edu.cn

QQ：360847840

教师简介：

赵东琦博士现为武汉理工大学自动化学院特设副教授，主要从事燃料电池性能评估与状态观测、电解制氢系统集成与控制、新型电力系统多源异质能流优化等方面的研究。主持国家自然科学基金青年基金1项、国家重点研发计划子课题1项、获批2024年度国家资助博士后研究人员计划C档1项、博士后面上基金1项。发表SCI/EI论文20余篇，申请或授权发明专利10余项。

工作经历：

2023.09—至今,武汉理工大学,电气工程，助理研究员/特设副教授。

教育经历：

2017.09—2023.09,华中科技大学,控制科学与工程,硕士/博士；

2019.01—2022.08,香港理工大学,联合培养；

2013.09—2017.06,重庆大学,自动化,学士。

科研项目：

1、国家自然科学基金青年基金，基于全状态感知的电氢能源系统多源异质能流协同管控研究，2026.01-2028.12，主持

2、国家重点研发计划子课题，多机燃料电池协同控制技术，2023.12-2026.11，主持

3、2024年度国家资助博士后研究人员计划C档，融合可逆氢燃料电池的电氢耦合系统多时空尺度优化与协同管控研究，2024.07-2026.07，主持

4、博士后面上项目，基于时频特征异构的电氢耦合系统多源异质能流协同管控研究，2024.11-2026.10，主持

代表性论文：

1. Dongqi Zhao, Jisen Li, Ze Zhou, et al. Multiscale modeling and optimization of proton exchange membrane electrolysis cells: a review[J]. Applied Energy, 2025, 398: 126451.

2. Dongqi Zhao, Zhiping Xia, Meiting Guo, Qijiao He, Qidong Xu, Xi Li*, and Meng Ni*. Capacity optimization and energy dispatch strategy of hybrid energy storage system based on proton exchange membrane electrolyzer cell [J]. Energy Conversion and Management, 2022, 272: 11636.

3. Jisen Li, Dongqi Zhao*, Liang Xie, Ze Zhou, Liyan Zhan, and Qihong Chen*. Spatial–temporal synchronous fault feature extraction and diagnosis for proton exchange membrane fuel cell systems[J]. Energy Conversion and Management, 2024, 315: 118771.

4. Jisen Li, Dongqi Zhao*, Yuren Wang, et al. PEM fuel cell platinum distributions optimization under typical scenarios utilizing multiple health and efficiency indicators[J]. Applied Energy, 2025, 400: 126553.

5. Jisen Li, Dongqi Zhao*, Liang Xie, et al. Optimization of platinum distribution in low-humidity proton exchange membrane fuel cells via multiphysics-informed neural network[J]. Energy Conversion and Management, 2026, 349: 120938.

6. Jisen Li, Dongqi Zhao*, Xinlong Ma, Liang Xie, Ze Zhou, Liyan Zhang, Qihong Chen*. Health status assessment for proton exchange membrane fuel cell by polarization processes identification utilizing relaxation time analysis[J]. International Journal of Hydrogen Energy, 2025, 128: 131-145.

7. Jisen Li, Dongqi Zhao*, Liang Xie, Ze Zhou, Liyan Zhan, and Qihong Chen*. Internal water content estimation for PEM fuel cell utilizing adaptive sliding mode technology[J]. CSEE Journal of Power and Energy Systems, 2024.

8. Ruodong Ma, Jisen Li, Dongqi Zhao*, Ze Zhou, Binyu Xiong*, Liyan Zhang, and Qihong Chen. Uncertainty-aware oriented lifetime prediction of proton exchange membrane fuel cells based on high-order time-frequency health indicator [J]. International Journal of Hydrogen Energy, 2025, 113: 655-668.

9. Dongqi Zhao, Qijiao He, Jie Yu, Jianhua Jiang, Xi Li*, and Meng Ni*. Dynamic behaviour and control strategy of high temperature proton exchange membrane electrolyzer cells (HT-PEMECs) for hydrogen production[J]. International Journal of Hydrogen Energy, 2020, 45(51): 26613-26622.

10. Dongqi Zhao, Qijiao He, Jie Yu, Meiting Guo, Jun Fu, Xi Li*, and Meng Ni*. A data-driven digital-twin model and control of high temperature proton exchange membrane electrolyzer cells[J]. International Journal of Hydrogen Energy, 2022, 45(14): 8687-8699.

11. Dongqi Zhao, Zhiping Xia, Meiting Guo, Qijiao He, Qidong Xu, Xi Li*, and Meng Ni*. Dynamic hierarchical modeling and control strategy of high temperature proton exchange electrolyzer cell system[J]. International Journal of Hydrogen Energy,2022, 47(53): 22302-22315.

12. Dongqi Zhao, Meiting Guo, Qijiao He, Jie Yu, Qidong Xu, Zhiping Xia, Xi Li*, and Meng Ni*. System level modeling and optimization of high temperature proton exchange membrane electrolyzer system considering recirculated hydrogen as carrier gas[J]. International Journal of Energy Research, 2022, 46(12): 17590-17601.