方斯顿
学历:博士
职称:重庆大学“弘深优秀学者”,教授,博士生导师
邮箱:fangston@cqu.edu.cn
研究方向:综合能源系统、能源-交通融合
个人简介
2012年毕业于重庆大学,获工学学士学位;2017年毕业于上海交通大学,获工学博士学位,论文提名上海交通大学优秀博士论文。2017-2021年先后在新加坡南洋理工大学和香港中文大学从事博士后研究。2021年加入重庆大学电气工程学院,同年入选国家级青年人才项目,担任重庆大学“弘深优秀学者”,教授,博士生导师。
现担任IEEE IAS能源系统委员会“微电网与虚拟电厂”分委会秘书,IEEE Transactions on Industry Applications,IET Renewable Power Generation期刊Associate Editor,Energy Systems期刊Editorial Board Member。2020-2022年曾担任International Transactions on Electrical Energy Systems期刊Editorial Board Member。先后担任IEEE Transactions on Industrial Informatics, Energy, eTransportation, energies等期刊客座编辑。2021 International Conference on Power and Energy Systems, Shanghai, China出版主席,2022 IEEE IAS Industrial and Commercial Power System Conference Asia, Shanghai, China出版主席。
主要从事综合能源、能源-交通融合的研究工作,特别是在海洋交通系统中的应用,包括多能源船舶能量管理,船舶储能系统健康管理和港口综合能源系统。在相关领域发表论文30余篇,第一作者于Springer Nature出版英文专著1部,获2022年Springer Nature“中国新发展奖”(能源领域唯一获奖者)。
未来主要研究领域包括:
l 各类交通环境下的储能系统状态评估,包括高温、高湿、盐雾、振动等极端交通环境对储能特性劣化的影响机理与建模;
l 含大容量储能设备的交通载具功率控制,特别是船舶电力推进系统的功率控制,包括航迹控制、动力定位等模式下的功率分配问题;
l 港口综合能源系统的能源-交通融合特性分析与建模,特别是泊位调度、冷链运输管理、港机调度、堆场管理和转运车辆调度的能量流分析与建模。
长期招收博士、学术型硕士、专业型硕士等,欢迎拥有电气工程、交通运输工程、海洋工程、储能技术、大数据分析等背景的研究生报考!
学术书籍
1. Sidun Fang, book name “Optimization-based energy management for multi-energy maritime grids”, Springer Nature, 2021. (2022年Springer Nature“中国新发展奖”)
2. Sidun Fang, chapter title “The role of energy storage systems in microgrids operation”, in the book “Microgrids: Advances in Operation, Control, and Protection”, Springer Nature, 2021.
近五年学术论文成果
1. Sidun Fang, Chenxu Wang, Ruijin Liao, et al. Optimal Power Scheduling of Seaport Microgrids with Flexible Logistic Loads [J]. IET Renewable Power Generation, 2022, early access.
2. 方斯顿,赵常宏,丁肇豪,等. 面向碳中和的港口综合能源系统(一):典型系统结构与关键问题[J],中国电机工程学报,2021,优先出版.
3. 方斯顿,赵常宏,丁肇豪,等. 面向碳中和的港口综合能源系统(二):能源交通融合中的柔性资源与关键技术 [J],中国电机工程学报,2021,优先出版.
4. Sidun Fang, Chenxu Wang,Yashen Lin, et al. Optimal Energy Scheduling and Sensitivity Analysis for Integrated Power-Water-Heat Systems, IEEE Systems Journal, 2021, early access.
5. Sidun Fang, Shenxi Zhang, Tianyang Zhao et al, Optimal Power-Hydrogen-Vehicle Network Flow Scheduling with Convex Approximation, IEEE Transactions on Industry Applications, doi: 10.1109/TIA.2021.3095045, early access.
6. 方斯顿,王鸿东,张军军. 大容量船舶储能系统应用研究综述[J]. 中国舰船研究,2021,优先出版.
7. Sidun Fang, Yan Xu, Tianyang Zhao, et al, Two-Step Multi-Objective Management of Hybrid Energy Storage System in All-Electric Ship Microgrids [J]. IEEE Transactions on Vehicular Technology, 68(4): 3361-3373, 2019.
8. Sidun Fang, Yan Xu, Multi-Objective Coordinated Scheduling of Energy and Flight for Hybrid Electric Unmanned Aircrafts [J]. IEEE Transactions on Industrial Electronics, 66(7): 5686-5695, 2019.
9. Sidun Fang, Yan Xu, Zhengmao Li, et al, Optimal Sizing of Shipboard Carbon Capture System for Maritime Greenhouse Emission Control [J]. IEEE Transactions on Industry Applications, 55(6): 5543-5553, 2019.
10. Sidun Fang, Bin Gou, Yu Wang, et al, Towards Future Green Maritime Transportation: an overview of Seaport Microgrids and All-electric Ships [J]. IEEE Transactions on Vehicular Technology, 69(1): 207-219, 2020.
11. Sidun Fang, Yan Xu. Multi-Objective Robust Energy Management for All-Electric Shipboard Microgrid under Uncertain Wind and Wave [J]. International Journal of Electrical Power & Energy System, 117: 105600, 2020.
12. Sidun Fang, Yan Xu, Shuli Wen, et al. Data-Driven Robust Coordination of Generation and Demand-side in Photovoltaic Integrated All-Electric Ship Microgrids [J]. IEEE Transactions on Power Systems, 35(3): 1783-1795, 2020.
13. Sidun Fang, Bin Gou, Yan Xu, et al, Optimal Hierarchical Management of Shipboard Multi-Battery Energy Storage System using a Data-Driven Degradation Model [J]. IEEE Transactions on Transportation Electrification, 5(4): 1306-1318, 2019.
14. Sidun Fang, Yanhong Fang, Hongdong Wang, et al, Optimal Heterogeneous Energy Storage Management for Multi-energy Cruise Ships [J]. IEEE Systems Journal, 14(4): 4754-4664, 2020.
15. Sidun Fang, Haozhong Cheng, Chengming Zhang, Joint Generation and Voyage Scheduling for Photovoltaic Integrated All-Electric Ships [J]. IET Journal of Engineering, 18: 5085-5089, 2019.
16. Sidun Fang, Tianyang Zhao, Yan Xu, et al. Coordinated Chance-constrained Optimization of Multi-energy Microgrid System for Balancing Operation Efficiency and Quality-of-service [J]. Modern Power System and Clean Energy, 8 (5), 853-862, 2020.
17. 方斯顿,王鸿东,张沈习 等. 考虑蓄电池寿命损耗的全电船舶能量管理方法[J]. 中国电机工程学报,40(23):7566-7578, 2020.
18. Sidun Fang, Yan Xu, Zhengmao Li, et al. Robust Operation of Shipboard Microgrids With Multiple-Battery Energy Storage System Under Navigation Uncertainties [J], IEEE Transactions on Vehicular Technology, 69(10): 10531-10544, 2020.