Abstract
TWith the policy of “peak carbon dioxide emission and carbon neutrality” put forward, clean energy will gradually replace traditional heating. In order to reduce carbon emissions, this paper combines solid-state heat storage with battery energy storage, studies the characteristics of wind curtailment, and optimizes the coordinated control strategy of heat storage and energy storage capacity allocation. Considering the constraints of power system and thermal system, this paper takes economic benefit and power optimal distribution as objective functions, establishes a multi-objective bi-level optimization model of heat storage and energy storage hybrid system, and adopts fuzzy algorithm to solve the optimal solution of energy coordination dispatching. The capacity and power of each device should be reasonably planned to meet the economic heating and technical requirements. Finally, the rationality and superiority of the coordinated control method and configuration are verified by the example data, which can effectively solve the utilization ratio of wind power and improve the overall economic benefits of the system.
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Acknowledgement
Supported by Science and Technology Planning Project of Jilin Province Science and Technology Department (20190303024SF). Changchun Institute of Technology Seed Fund Project320200002 Science and Technology Project of Jilin Electric Power Research InstituteSGJLDK00KJJS2000150)
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Wang, H., Liu, J., Dong, G., Lv, S., Zhang, Y. (2022). Research on Operation Control Method and Optimal Configuration of Energy Storage System Integrating Solid-State Heat Storage Considering Low-Carbon Economy. In: Jia, Y., Zhang, W., Fu, Y., Yu, Z., Zheng, S. (eds) Proceedings of 2021 Chinese Intelligent Systems Conference. Lecture Notes in Electrical Engineering, vol 804. Springer, Singapore. https://doi.org/10.1007/978-981-16-6324-6_47
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DOI: https://doi.org/10.1007/978-981-16-6324-6_47
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