An Adaptive Setting Procedure for Multi-Source Microgrid Protection

2019 11th International Conference on Electrical and Electronics Engineering (ELECO) Pub Date : 2019-11-01 DOI:10.23919/ELECO47770.2019.8990554

Ömer Ustal Berkin Kara, M. Uzun, Cenk Göçer

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引用次数: 1

Abstract

Following the devolution of power generation, there has been a great number of increase in installing the generation units driven by renewable energy sources. Connection of these units into distribution networks provides several benefits to the utilities and customers. However, their connection to the main network creates several difficulties from the protection and control point of views, since they converts the radial distribution networks into microgrids. In order to overcome these problems, the protection and control schemes need to be reconsidered and improved. One of these improved schemes is the adaptive protection. In this approach, settings of overcurrent relays are automatically updated as the system conditions change. This paper deals with an adaptive protection scheme, which requires off-line analysis and reestimation of setting values for every network operation topology. Computer simulation studies used to analyze the performance of the proposed adaptive approach. These studies have shown that an adaptive setting procedure for over current relays is definitely required for a reliable protection and coordination of multi-source microgrids.

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一种多源微电网保护自适应整定方法

随着发电权力下放，可再生能源发电机组的安装数量大幅增加。将这些装置连接到配电网中为公用事业和客户提供了一些好处。然而，从保护和控制的角度来看，它们与主网的连接带来了一些困难，因为它们将径向配电网转换为微电网。为了克服这些问题，需要重新考虑和改进保护和控制方案。其中一种改进方案是自适应保护。在这种方法中，过流继电器的设置会随着系统条件的变化而自动更新。本文研究了一种自适应保护方案，该方案需要离线分析和重新估计每个网络运行拓扑的设定值。采用计算机仿真研究分析了所提出的自适应方法的性能。这些研究表明，对于多源微电网的可靠保护和协调，一定需要一种过电流继电器的自适应整定程序。

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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2019 11th International Conference on Electrical and Electronics Engineering (ELECO)

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