Redundant bus protection using high-impedance differential relays

2018 71st Annual Conference for Protective Relay Engineers (CPRE) Pub Date : 2018-03-01 DOI:10.1109/CPRE.2018.8349818

Josh LaBlanc, M. Thompson

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引用次数: 2

Abstract

Minnesota Power is assessing ways to improve redundancy of protection systems for compliance with North American Electric Reliability Corporation (NERC) Standard TPL-002 — System Performance Following Loss of a Single BES Element. Historically, buses rarely included dual differential systems and relied on time-delayed remote backup to cover a failure of the bus protection system. Today's highly stressed power system is less tolerant of delayed fault clearing with loss of multiple branch circuits for a single-contingency failure. Therefore, determining ways to achieve dual high-speed protection systems for buses has become important. Historically, Minnesota Power has used high-impedance bus differential (87Z) protection systems. This principle has many advantages, including high performance, virtually no limit to the number of branch circuits, simple current transformer (CT) wiring, and simple settings calculations. This paper examines various options for obtaining redundancy. The paper includes an emphasis on examining various methods of applying dual 87Z relays in an existing bus differential CT circuit.

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采用高阻抗差分继电器的冗余母线保护

明尼苏达电力公司正在评估改善保护系统冗余的方法，以符合北美电力可靠性公司(NERC)标准TPL-002 -单个BES元件丢失后的系统性能。从历史上看，总线很少包括双差动系统，并且依赖于延时远程备份来覆盖总线保护系统的故障。当今的高压电力系统对因单一意外故障而导致的多支路损失的延迟故障清除的容忍度较低。因此，确定实现客车双高速保护系统的方法变得非常重要。历史上，明尼苏达电力公司使用高阻抗母线差分(87Z)保护系统。这个原理有很多优点，包括高性能，几乎没有分支电路数量的限制，简单的电流互感器(CT)布线，简单的设置计算。本文探讨了获得冗余的各种选择。本文重点研究了在现有母线差动CT电路中应用双87Z继电器的各种方法。

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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2018 71st Annual Conference for Protective Relay Engineers (CPRE)

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