Phase-shifting transformer control and protection settings verification

2018 71st Annual Conference for Protective Relay Engineers (CPRE) Pub Date : 2018-03-01 DOI:10.1109/CPRE.2018.8349815

B. Cook, M. Thompson, K. Garg, M. Malichkar

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引用次数: 3

Abstract

San Diego Gas & Electric (SDG&E) initiated a project to add two parallel 400 MVA (+31.3° to −80.1°) phase-shifting transformers (PSTs) at a 230 kV interconnection substation. California ISO (CAISO) proposed the PST project to provide flow control between SDG&E and Comisión Federal de Electricidad (CFE) 230 kV systems during critical N-1 or N-1-1 500 kV line contingencies. With the need to integrate renewable generation, many utilities are using PSTs to manage the grid (e.g., American Electric Power [AEP] has eight PSTs in their system). SDG&E is presently reviewing the need for additional PST projects. The authors collaborated to address the unique challenges of parallel PST protection and control for this wide-ranging PST application, including implementation of CAISO control and automatic contingency-based tap-changer runback. This paper discusses SDG&E's process to execute the project, including settings development, simulation, lab and field testing, and in-service testing. The authors discuss oscillography analysis used during lab testing, energization, and loading to verify the overall design and programming.

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移相变压器控制和保护设置验证

圣地亚哥燃气和电力公司(SDG&E)启动了一个项目，在一个230千伏的互连变电站增加两个并联的400 MVA(+31.3°至- 80.1°)移相变压器(pst)。加州ISO (CAISO)提出了PST项目，在关键的N-1或N-1-1 500千伏线路事故期间，提供SDG&E和Comisión联邦电力公司(CFE) 230千伏系统之间的流量控制。由于需要整合可再生能源发电，许多公用事业公司正在使用pst来管理电网(例如，美国电力公司[AEP]在他们的系统中有八个pst)。SDG&E目前正在审查额外PST项目的需求。作者合作解决了这种广泛的PST应用中并行PST保护和控制的独特挑战，包括实施CAISO控制和基于突发事件的自动分接开关回退。本文讨论了SDG&E执行项目的过程，包括设置开发、模拟、实验室和现场测试以及在用测试。作者讨论了在实验室测试、通电和加载期间使用的示波器分析，以验证整体设计和编程。

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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