Utilising Rate of Change of Positive Sequence of Voltage as an Anti-Islanding Strategy for Distributed Generation

2020 IEEE International Conference on Power and Energy (PECon) Pub Date : 2020-12-07 DOI:10.1109/PECon48942.2020.9314293

N. A. Mohd Fadzil, M. Hairi, F. Hanaffi, M. Kamarudin, M. F. Mohamed, S. A. Sobri

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Abstract

The modern electrical grid portrays an increase in Distributed Generation (DG) application in order to satisfy the demand of electricity. These DG infiltrations altered the classical grid architecture hence affecting the grid protection structure specifically in related to the islanding situation. Unintentional islanding brings serious threat to the maintenance personnel in charge of the islanded grid, electrical instruments as well as the DG connected in the microgrid. A lot of researches were already conducted and continuously done in the chase of an ideal anti-islanding strategy, whilst the ideal one is yet to be acquired. This paper proposes an islanding detection strategy based on monitoring the rate of change of positive sequence of voltage (ROCOPV). Simulations are conducted for several islanding situations that include the deficit, surplus, and balanced islanding cases, hence the output procured is promising. The ROCOPV efficiently detect all demonstrated islanding cases within 0.05 s without any non-detection zone (NDZ).

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利用电压正序变化率作为分布式发电的抗孤岛策略

为了满足电力需求，现代电网中分布式发电(DG)的应用越来越多。这些DG渗透改变了传统的网格结构，从而影响了网格防护结构，特别是与孤岛情况有关的网格防护结构。非故意孤岛对孤岛电网的维护人员、电气仪表以及接入微电网的DG都带来了严重的威胁。为了追求理想的反孤岛策略，人们已经进行了大量的研究，并不断地进行研究，但理想的反孤岛策略还没有得到。提出了一种基于电压正序变化率监测的孤岛检测策略。模拟了几种孤岛情况，包括赤字、盈余和平衡孤岛情况，得到的输出是有希望的。ROCOPV在0.05 s内有效检测出所有岛状病例，无无检测区(NDZ)。

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 International Conference on Power and Energy (PECon)

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