Rapid power restoration technology for distribution network faults based on minimum network loss

Zixin Miao; Wenxuan Song; Ye Sun; Jin Zhao

doi:10.1117/12.3055576

12 December 2024 Rapid power restoration technology for distribution network faults based on minimum network loss

Zixin Miao, Wenxuan Song, Ye Sun, Jin Zhao

Proceedings Volume 13439, Fourth International Conference on Testing Technology and Automation Engineering (TTAE 2024); 1343919 (2024) https://doi.org/10.1117/12.3055576
Event: Fourth International Conference on Testing Technology and Automation Engineering (TTAE 2024), 2024, Xiamen, China

Abstract

This paper addresses the critical challenge of rapid power restoration in distribution networks by presenting a Multi-Agent System (MAS) designed to minimize network losses. The study begins with a comprehensive background on the increasing complexity of modern power distribution systems and the associated need for advanced fault management technologies. The proposed MAS integrates fault detection, isolation, and load management through a decentralized network of agents that collaborate in real-time. The system leverages smart switchgear for rapid fault isolation and utilizes distributed control mechanisms for efficient rerouting of power. Additionally, continuous network topology optimization is employed to reduce losses. Simulation results demonstrate the MAS's effectiveness in significantly improving restoration speed and enhancing overall network efficiency, making it a promising solution for smart grid applications.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Zixin Miao, Wenxuan Song, Ye Sun, and Jin Zhao "Rapid power restoration technology for distribution network faults based on minimum network loss", Proc. SPIE 13439, Fourth International Conference on Testing Technology and Automation Engineering (TTAE 2024), 1343919 (12 December 2024); https://doi.org/10.1117/12.3055576

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KEYWORDS

Switches

Power grids

Circuit switching

Control systems

Network architectures

Data communications

Medium wave

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