Modeling and Simulation of a STATCOM for reactive power control

2022 4th International Conference on Emerging Trends in Electrical, Electronic and Communications Engineering (ELECOM) Pub Date : 2022-11-22 DOI:10.1109/ELECOM54934.2022.9965258

A. Murdan, I. Jahmeerbacus, S. Hassen

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Abstract

Reliable and efficient power systems operation requires voltage control as well as minimal reactive power flow between a load and the grid. To achieve this objective, reactive power compensating devices are typically utilized. In modern power systems, the synchronous static compensator (STATCOM) is primarily used for reactive power control, both in distribution and transmission lines. This study presents the modeling and simulation of a STATCOM based on a voltage source converter. Simulations are performed for both single phase and three phase power systems. Furthermore, two control techniques, utilizing Proportional Integral (PI) as well as Proportional Resonant (PR) controllers are explored. The PR controller presents several advantages compared to the PI controller. Simulation results show that in both cases, the STATCOM, connected in shunt with the load either provides reactive power to the load, or absorbs reactive power from the load. Thus, net reactive power transfer from the grid to the load is zero. The grid provides only active power, thus keeping the power factor to almost unity.

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无功控制STATCOM的建模与仿真

可靠和高效的电力系统运行需要电压控制以及负载和电网之间的最小无功功率流。为了实现这一目标，通常使用无功补偿装置。在现代电力系统中，同步静态补偿器(STATCOM)主要用于配电和输电线路的无功控制。本文研究了基于电压源变换器的STATCOM的建模与仿真。分别对单相和三相电力系统进行了仿真。此外，两种控制技术，利用比例积分(PI)和比例谐振(PR)控制器进行了探索。与PI控制器相比，PR控制器具有几个优点。仿真结果表明，在两种情况下，与负载并联连接的STATCOM要么向负载提供无功功率，要么从负载中吸收无功功率。因此，从电网到负荷的净无功功率传输为零。电网只提供有功功率，因此保持功率因数几乎一致。

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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2022 4th International Conference on Emerging Trends in Electrical, Electronic and Communications Engineering (ELECOM)

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