Simulation of Voltage Stability Enhancement at Primary Substation Using Static VAR Compensator

Journal of Engineering Technology and Applied Physics Pub Date : 2023-09-15 DOI:10.33093/jetap.2023.5.2.5

Myat Lay Phyu

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Abstract

For the voltage stability enhancement of power system, the reactive power compensation is vital important. With the advancement in technology, the Flexible AC Transmission System Devices (FACTS) are widely used for stability improvement. In the primary substation, the stability is poor due to load conditions and system faults. In this research, the voltage stability enhancement for a Primary Substation using Static VAR (volt-amp reactive) compensator (SVC) is presented. SVC can be used to improve system voltage stability and addition of damping control. With the application of SVC, the voltage stability can be improved under normal condition as well as under contingency conditions. Shunt reactive power sources, including capacitive and inductive, are controlled by high power electronic switching devices in an SVC to enhance voltage stability. The goal of this attempt is to use SVC to improve the voltage stability of the 230/33 kV system. To evaluate the voltage stability improvement by SVC, a simulation model is implemented in Matlab/Simulink and performance analysis are carried out based on the simulation results.

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静态无功补偿器增强一次变电站电压稳定性的仿真研究

为了提高电力系统的电压稳定性，无功补偿是至关重要的。随着技术的进步，柔性交流输电系统器件(FACTS)被广泛用于提高系统的稳定性。在一次变电站中，由于负荷条件和系统故障等原因，稳定性较差。本文研究了采用静态无功电压补偿器(SVC)增强一次变电站电压稳定性的方法。SVC可用于提高系统电压稳定性和增加阻尼控制。SVC的应用不仅可以提高系统在正常工况下的电压稳定性，还可以提高系统在应急工况下的电压稳定性。并联无功电源包括电容式和电感式，在SVC中由大功率电子开关器件控制，以提高电压稳定性。本次尝试的目的是利用SVC提高230/ 33kv系统的电压稳定性。为了评估SVC对电压稳定性的改善效果，在Matlab/Simulink中建立了仿真模型，并根据仿真结果进行了性能分析。

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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Journal of Engineering Technology and Applied Physics

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