A Coordinated Recloser-Fusesaver Method for Reliability Enhancement of Distribution Networks

2020 IEEE 7th International Conference on Energy Smart Systems (ESS) Pub Date : 2020-05-01 DOI:10.1109/ESS50319.2020.9160036

Yara Hassan Moustafa, Amr Yehia Abou Ghazala, N. Abbasy

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Abstract

Medium voltage distribution networks lack the adequate capability of being remotely monitored, controlled and having smart response due to their traditional and low-level automated protection devices. This paper assesses the reliability and performance improvement in medium voltage distribution networks after increasing the system automation by applying the fusesaver device on lateral line coordinated with the recloser device on the main feeder line. All nowadays applied advanced devices and previous solution scenarios are discussed and summarized through a critical literature review. The detailed methodology for the fusesaver coordinated implementation is explained. The evaluation can be achieved by calculating in a historical way the most common distribution system reliability indices, then a comparison between the case study results before and after fusesaver installation is presented. As a result, an enormous reduction occurred in outage frequency and duration, and the number of affected customers. Moreover, online monitoring of the line helped in estimating fault location and giving precise control decisions.

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一种提高配电网可靠性的协调重合闸-熔断器方法

中压配电网由于其传统的、低水平的自动化保护装置，缺乏足够的远程监控和智能响应能力。本文对中压配电网在提高系统自动化程度后，在支线上加装熔断装置和在主馈线上加装重合闸装置对可靠性和性能的改善进行了评价。所有当今应用的先进设备和以前的解决方案方案进行了讨论和总结，通过关键的文献综述。阐述了fusesaver协调实现的详细方法。通过对配电网最常用的可靠性指标进行历史计算，得出了配电网可靠性评价结果，并对配电网安装救机前后的实例分析结果进行了比较。因此，中断频率和持续时间以及受影响客户的数量都大大减少。此外，在线监测线路有助于估计故障位置并给出精确的控制决策。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE 7th International Conference on Energy Smart Systems (ESS)

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