提高电网系统电压稳定性和谐波污染的静态无功补偿器控制策略

2023 International Conference on Artificial Intelligence and Smart Communication (AISC) Pub Date : 2023-01-27 DOI:10.1109/AISC56616.2023.10085135

G. Shrivastava, S. Chandra

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引用次数: 0

摘要

本文介绍了SVC在电网系统中稳定谐波电压分布的控制策略。电压波动是负荷变化的结果。为了克服这一问题，提出了一种SVC测试模型，以提高电网系统的电压分布。在SVC的试验模型中，使用3个tsc和1个TCR根据电网电压的波动向电网提供或接收无功功率，并抑制存在的谐波。在SVC试验模型中;有一组并联电容器组和电感，响应速度快，由晶闸管开关管理。在SVC接点处补偿所需的VAR是通过调整TCR引出电流的基频分量来提供的。SVC根据等效电抗(即电容或电感)提供或提取无功功率。本文描述了SVC控制策略通过交换VAR来提升电压分布和抑制不同瞬时电平谐波的作用。

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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Control Strategies for a Static VAR Compensator to Upgrade Voltage Stability and Harmonic Contamination in Grid System

This paper describes control strategies for SVC to stabilize the voltage profile in a grid system due to the presence of harmonics. Voltage fluctuation occurs on a regular basis as a result of load variation. So to overcome this problem, a test model of SVC is proposed to upgrade the voltage profile in a grid system. In the test model of SVC, three TSCs and one TCR are used to provide or receive reactive power to the grid according to the fluctuation in grid voltage and it also suppresses the harmonics present. In the test model of SVC; there is a group of shunt capacitor banks and inductors with a fast speed of response managed by thyristor switching. The VAR required for compensation at the point of connection of SVC is provided by adjusting the fundamental frequency component of the current drawn by TCR. The SVC supplies or draws Reactive power depending on the equivalent reactance i.e. capacitive or inductive. In this paper, the role of control strategies of SVC is described to upgrade the voltage profile and suppression of harmonics at different instants level by exchanging the VAR.

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2023 International Conference on Artificial Intelligence and Smart Communication (AISC)

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