Application of Controlled Shunt Reactors for Suppression Abnormal Resonance Overvoltages in Assymetric Modes

2019 IEEE 6th International Conference on Energy Smart Systems (ESS) Pub Date : 2019-04-01 DOI:10.1109/ESS.2019.8764196

V. Kuchanskyy

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引用次数: 16

Abstract

Abnormal resonant overvoltages in asymmetrical modes of bulk electrical power networks arise unexpectedly and can reach dangerous values. At the same time, there are no special devices in the networks to protect the equipment from this durable kind of overvoltages. The aim of the work is analyze the use of controlled shunt reactors to suppress the causes of abnormal resonance overvoltages in open-phase asymmetrical modes. The investigations were carried by analytical expression of resonant length and compensation degree of the line. As an example of an asymmetric mode, of the line is considered single phase auto reclose. The task is different from the traditional design, in which the technical and economic indicators of the normal regime serve as the criterion for choosing the parameters of the controlled shunt reactors. It was concluded that it is expedient to take into account the probability of occurrence of abnormal resonant overvoltages in solving design and operational problems of optimization of flow distribution of reactive capacities in bulk power electrical networks with the help of controlled shunt reactors.

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控制并联电抗器在非对称模式下抑制异常谐振过电压中的应用

大电网非对称模式下会出现异常谐振过电压，并可能达到危险值。同时，在网络中没有特殊的装置来保护设备免受这种持久的过电压。本文的目的是分析利用可控并联电抗器抑制开相非对称模式下异常谐振过电压的原因。利用谐振长度和线路补偿度的解析表达式进行了研究。作为不对称模式的一个例子，该线路被认为是单相自动合闸。这一任务不同于传统的以正常工况的技术经济指标作为控制并联电抗器参数选择的准则。结果表明，在利用可控并联电抗器解决大电网无功容量流分布优化的设计和运行问题时，考虑异常谐振过电压发生的概率是有利的。

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 6th International Conference on Energy Smart Systems (ESS)

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