Paper
25 September 2023 Research on coordinated scheduling of integrated energy microgrid based on fuzzy control strategy
Jianlin Li, Zedong Zhang, Zhonghao Liang, Fei Zeng
Author Affiliations +
Abstract
In the period of global energy low-carbon transition, hydrogen energy is regarded as a new solution to reduce carbon emissions as a secondary energy source with the advantages of high thermal energy, zero pollution, easy storage and easy transportation, which can effectively promote the development of the existing energy system to a new and optimized direction. In this paper, an integrated energy microgrid system including a proton exchange membrane electrolyzer, a fuel cell and a hydrogen storage tank is established, and the start-stop power of the proton exchange membrane electrolyzer and the fuel cell is optimally scheduled by applying a fuzzy control strategy, and the feasibility of the proposed integrated energy microgrid system is verified by using MATLAB software simulation
(2023) Published by SPIE. Downloading of the abstract is permitted for personal use only.
Jianlin Li, Zedong Zhang, Zhonghao Liang, and Fei Zeng "Research on coordinated scheduling of integrated energy microgrid based on fuzzy control strategy", Proc. SPIE 12788, Second International Conference on Energy, Power, and Electrical Technology (ICEPET 2023), 127880I (25 September 2023); https://doi.org/10.1117/12.3004239
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KEYWORDS
Hydrogen energy

Control systems

System integration

Hydrogen production

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