Stability of Synchronous Motors Under Single Phase Grid Short Circuits

2018 International Multi-Conference on Industrial Engineering and Modern Technologies (FarEastCon) Pub Date : 2018-10-01 DOI:10.1109/FAREASTCON.2018.8602727

A. Fedotov, R. Mudarisov

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引用次数: 1

Abstract

This paper studies asymmetrical voltage sags caused by single phase short circuits appearing in power grids. Research defines the worst case fault conditions and shows their impact on stability of high voltage synchronous motors. Calculations done within the research take into account the distribution of voltage and current symmetrical components in power-supply system elements. Power supply system model was developed in the Matlab program in order to study stability of synchronous motors during voltage sags. The motor in the model is equipped with static exciter that enables us to account the impact of sag on motors excitation winding. The paper also shows fault appearance time (initial point on wave influence) as one of the worst case fault conditions. Finally research proposes the methodology developed to assess synchronous motor stability (calculation of the fault critical duration) under discovered worst case fault conditions. Results of the research could be used to calibrate protective relays used in power supply grids of oil and gas transportation systems equipped with powerful synchronous motors.

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单相电网短路条件下同步电动机的稳定性

本文研究了电网中单相短路引起的不对称电压跌落问题。研究了高压同步电机最坏故障条件的定义，并分析了其对电机稳定性的影响。研究中所做的计算考虑了供电系统元件中电压和电流对称分量的分布。为了研究同步电动机在电压跌落时的稳定性，在Matlab程序中建立了电源系统模型。模型中的电机配有静态励磁器，使我们能够考虑凹陷对电机励磁绕组的影响。故障出现时间(波影响起始点)是最坏的故障条件之一。最后，研究提出了在发现的最坏故障条件下评估同步电机稳定性的方法(计算故障临界持续时间)。研究结果可用于校准配备大功率同步电机的油气输送系统供电电网中使用的保护继电器。

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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来源期刊

2018 International Multi-Conference on Industrial Engineering and Modern Technologies (FarEastCon)

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