A differential current based protection scheme for DC microgrid

International Journal of Power Electronics and Drive Systems (IJPEDS) Pub Date : 2024-06-01 DOI:10.11591/ijpeds.v15.i2.pp793-801

Eswaraiah Giddalur, A. Laxmi

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Abstract

A continuous increase in greenhouse emissions has led to more frequent use of renewable energy resources. The increased emergence of DC loads in day-to-day lives has further led to conversion to DC distribution lines. In prospect of getting more environmentally friendly, economical, and reliable power delivery a DC micro grid was developed and has become more common in recent years. The disaster management cell located at the Department of Electrical and Electronics Engineering has designed a DC micro grid which consists of sources provided from the grid, a battery bank, and an array of solar cells supplying to a set of nine loads, which are segregated into three sets of three loads each. This paper presents a protection scheme for the buses present in a micro grid that is based on the differential current principle. It is done with the help of a centralized protection controller that enables fault identification and fault isolation. This protection scheme is further extended to a DC ring-bus micro grid, where the centralized protection controller enables fault identification, fault location, and fault isolation. MATLAB/Simulink is used to obtain the simulation and verify the results.

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基于差分电流的直流微电网保护方案

温室气体排放量的持续增加促使人们更频繁地使用可再生能源。日常生活中出现的直流负载越来越多，进一步导致了直流配电线路的转换。为了获得更环保、更经济、更可靠的电力供应，直流微电网应运而生，并在近年来变得越来越普遍。位于电气与电子工程系的灾害管理小组设计了一个直流微电网，它由电网提供的电源、蓄电池组和太阳能电池阵列组成，向一组九个负载供电，每个负载分为三组，每组三个负载。本文介绍了一种基于差分电流原理的微电网母线保护方案。该方案借助集中式保护控制器实现故障识别和故障隔离。该保护方案进一步扩展到直流环形母线微电网，集中式保护控制器可实现故障识别、故障定位和故障隔离。使用 MATLAB/Simulink 进行仿真并验证结果。

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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International Journal of Power Electronics and Drive Systems (IJPEDS)

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