A novel approach for out-of-step protection based on Clarke's transformation and analytic geometry parameters

2019 IEEE Industry Applications Society Annual Meeting Pub Date : 2019-09-01 DOI:10.1109/IAS.2019.8912388

J. Camarillo-Peñaranda, David F. Celeita, Mario Gutierrez, Mateo Toro, G. Ramos

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引用次数: 1

Abstract

Out-of-step protection has been widely studied, and it remains an urgent topic on the field. Given the crucial modernization of the power systems and the evolution of protective relaying developments, it is crucial to merge from traditionally fixed parameters to novel approaches which allow flexibility and possible time-domain protection. This paper presents a new methodology to implement an out-of-step protection algorithm through the geometrical understanding of a power system oscillation using Clarke's theory. The study is an extension of a virtual relay solution previously developed and improves the Swing Center Voltage solution in the alpha-beta domain with better selectivity and enhancing the classification unstable and stable oscillation. The result brings a functional virtual relay capable of detecting and reacting under stable and unstable power swing events through playback techniques. The contribution of this study relies on the application of the time-domain approach to improving the function ANSI 78 as an extension of ongoing research on virtualization of power system protection and realtime prototyping.

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基于Clarke变换和解析几何参数的失步保护新方法

失步保护已被广泛研究，是一个亟待解决的问题。考虑到电力系统的现代化和继电保护的发展，从传统的固定参数到允许灵活性和可能的时域保护的新方法的融合是至关重要的。本文提出了一种新的方法，通过对电力系统振荡的几何理解，利用克拉克理论实现一种失步保护算法。该研究是先前开发的虚拟继电器解决方案的扩展，改进了α - β域的摆幅中心电压解决方案，具有更好的选择性，增强了不稳定和稳定振荡的分类。通过重放技术，实现了一种能够检测稳定和不稳定功率摆动事件并作出反应的功能虚拟继电器。本研究的贡献依赖于时域方法的应用来改进功能ANSI 78，作为正在进行的电力系统保护虚拟化和实时原型研究的延伸。

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 IEEE Industry Applications Society Annual Meeting

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