Hydrogen-electric coordination connects the hydrogen power and electric power. The main research fields include high-efficiency electrolysis converter, wide-range electrolysis hydrogen directly driven by renewable energy sources, wind-pv-hygrogen-storage distributed smart grid, seawater electrolysis system based on offshore wind power, long-term and large-scale storage of power system and so on.
Representative research achievements
1. Bo Y, Xia Y, Wei W. Ultra-short-term optimal dispatch for EH-IES considering uncertainty of delay in the distribution network. International Journal of Electrical Power & Energy Systems, 2022.
2. Bo Y, Xia Y, Wei W, Li Z, Zhao Bo. Hyperfine Optimal Dispatch for Integrated Energy Microgrid Considering Uncertainty. Applied Energy, 2022.
3.Zhang Y, Wei W. Decentralised coordination control strategy of the PV generator, storage battery and hydrogen production unit in islanded AC microgrid. IET Renewable Power Generation, 2020.
1.Wei Wei, Bo Zhao, Yanghong Xia, et.al. Autonomous Coordination Control and Application of High-Permeability Distributed New Energy Sources Based Hybrid AC/DC Microgrids. Scientific and Technological Award of Zhejiang Province, 2021.
2. Bo Y, Xia Y, Wei W. Ultra-short-term optimal dispatch for EH-IES considering uncertainty of delay in the distribution network. International Journal of Electrical Power & Energy Systems, 2022.
3.Haorang Cheng, Yanghong Xia, Hanghang He, et. al. Modeling of Large-capacity Alkaline Electrolyzers for Hydrogen Production from Renewable Energy. Acta Energiae Solaris Sinica, 2022.
4. Bo Y, Xia Y, Wei W, Li Z, Zhao Bo. Hyperfine Optimal Dispatch for Integrated Energy Microgrid Considering Uncertainty. Applied Energy, 2022.
5.Zhang Y, Wei W. Decentralised coordination control strategy of the PV generator, storage battery and hydrogen production unit in islanded AC microgrid. IET Renewable Power Generation, 2020.
6.Yanghong Xia, Haoran Cheng, Wei Wei, Hanghang He. A Kind of Wide Operation Range Control Method for AWEs. Patent:CN202210792883.9.