Modeling and Simulation of Under -Frequency Relay for Generator Protection

Vol 3 No 2 Pub Date : 2020-12-31 DOI:10.30537/sjet.v3i2.626

A. Memon, M. A. Koondhar, Imdad Ali Memon, Masood Ali Koondhar, I. A. Channa

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Abstract

: Power systems are undergoing structural changes induced by the combination of the operation of microgrids and distributed generation units. This transfiguration has impersonated new challenges in well-established power system practices, coordination of protection systems and especially on the design. Same time, technological improvements in protective equipment have set up the basis for the development of digital frequency relays (DFL) which enable an alternate approach to standard protection schemes. It is necessary for the power system to operates, regulates and manages ancillary services more efficiently to maintain the reliability of the system. The power system is continually laying unexpected contingencies which cause inequality between load demand and generated power. Such uncertainties cause the disturbance in the power system frequency. The only way to maintain power system frequency by balancing load and generation. In this paper, we have designed the under-frequency relay (UFL) model in Matlab simulink. We have noticed that when the load on the system is increased, the designed model shed the extra load and are modeled through under frequency relay by comparing the frequency responses of the power system.

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发电机保护低频继电器的建模与仿真

当前，由于微电网和分布式发电机组的联合运行，电力系统正在发生结构性变化。这种变化对现有的电力系统实践，保护系统的协调，特别是设计提出了新的挑战。同时，保护设备的技术改进为数字频率继电器(DFL)的发展奠定了基础，使标准保护方案的替代方法成为可能。为了保证系统的可靠性，电力系统必须更有效地运行、调节和管理辅助业务。电力系统不断发生突发事件，导致负荷需求与发电量不均衡。这种不确定性对电力系统频率产生干扰。维持电力系统频率的唯一途径是平衡负荷和发电量。本文在Matlab simulink中设计了低频继电器(UFL)模型。通过比较电力系统的频率响应，我们注意到当系统负荷增加时，设计的模型会减少额外的负荷，并通过欠频继电器进行建模。

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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Vol 3 No 2

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