Optimal allocation of supercapacitor energy storage system capacity for mitigating wind power fluctuations

Optimal allocation of supercapacitor energy storage system capacity for mitigating wind power fluctuations

Under the background of "double carbon", the installed capacity of wind power grows year by year, characterized by intermittency and volatility, bringing challenges to the reliable operation of the power system. This study proposes an optimal capacity configuration method for supercapacito...

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Bibliografiske detaljer
Main Authors: Ge Cao, Yifeng Dang, Shaoxiong Guo, Yan Liang, Rong Jia
Format: Article
Sprog:engelsk
Udgivet: Tamkang University Press 2025-06-01
Serier:Journal of Applied Science and Engineering
Fag:
supercapacitor
fluctuation smoothing
energy storage
k-means algorithm
Online adgang:http://jase.tku.edu.tw/articles/jase-202601-29-01-0013
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Summary:Under the background of "double carbon", the installed capacity of wind power grows year by year, characterized by intermittency and volatility, bringing challenges to the reliable operation of the power system. This study proposes an optimal capacity configuration method for supercapacitor energy storage systems (SCES) to mitigate wind power fluctuations and maintain power system stability. The initial wind power curves are first analyzed and processed using empirical modal analysis to obtain a series of intrinsic modal functions at different frequencies, distinguishing between lowfrequency and high-frequency signals, which are reconstructed. Secondly, Leigh takes the minimization of the fluctuation volume and investment and operation cost of the supercapacitor energy storage system as the objective function and establishes the capacity allocation model of the supercapacitor energy storage system based on the power generation constraints and energy balance constraints of the supercapacitor energy storage system; Finally, the computational analysis was performed by actual area data, and the K-means algorithm was used to solve for grouping the data points into clusters, reconstructing each typical day and setting the maximum fluctuation limit. The proposed capacity allocation model is utilized to flatten the wind power data, and by comparing the grid-connected power curves of the wind power output before and after flattening, the capacity configurations of the supercapacitors for the two scenarios are 24.06 MW , and 30.34 MW , the rationality and effectiveness of the proposed method in flattening the fluctuations are verified.
ISSN:2708-9967
2708-9975

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