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A high-frequency reduced-order model for parameters optimization of AC/DC distribution systems considering random disturbances

Accompanying the rapid development of AC/DC distribution systems, along with the random disturbances introduced by a significant number of distributed generations and loads, the difficulty of system stability analysis has increased. The phenomenon of DC bus voltage instability has become severe, aff...

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Published in:	Sustainable energy technologies and assessments 2024-11, Vol.71, p.103969, Article 103969
Main Authors:	Jiang, Songhan, Peng, Ke, Zhao, Xueshen, Chen, Jiajia, Jiang, Yan, Liu, Yuxin
Format:	Article
Language:	English
Subjects:	AC/DC power distribution systems Analytical equations Hardware-in-the-loop experiments High-frequency oscillation Random disturbance Sensitivity analysis
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creator	Jiang, Songhan Peng, Ke Zhao, Xueshen Chen, Jiajia Jiang, Yan Liu, Yuxin
description	Accompanying the rapid development of AC/DC distribution systems, along with the random disturbances introduced by a significant number of distributed generations and loads, the difficulty of system stability analysis has increased. The phenomenon of DC bus voltage instability has become severe, affecting the safe and stable operation of power systems. This paper focuses on the research of multi-terminal AC/DC distribution systems. A reduced-order method for multi-terminal distribution systems is proposed. Through parameter equivalent transformation, the system model is simplified while maintaining its dynamic characteristics. Parameter sensitivity analysis is utilized to identify key parameters influencing the system’s dynamic behavior, achieving an analytical expression of the system’s dynamic characteristics. And stability domain analysis is applied to delineate the variations in system dynamic behavior and responses to random disturbances under different parameter settings. Then a multi-parameter optimization method is designed to enhance system stability while achieving fast system response. Finally, theoretical analysis is validated through software simulation and hardware-in-the-loop experiments.
doi_str_mv	10.1016/j.seta.2024.103969
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subjects	AC/DC power distribution systems Analytical equations Hardware-in-the-loop experiments High-frequency oscillation Random disturbance Sensitivity analysis
title	A high-frequency reduced-order model for parameters optimization of AC/DC distribution systems considering random disturbances
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