Improvement of Voltage Stability in Power System using SVC

2022 IEEE 12th International Conference on Control System, Computing and Engineering (ICCSCE) Pub Date : 2022-10-21 DOI:10.1109/ICCSCE54767.2022.9935625

Amirul Hakim Ramli, N. A. M. Leh, Shabinar Abdul Hamid, Z. Muhammad

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Abstract

The increased demand for electricity has pushed the electrical grid closer to its stability limit. Due to many methods used to enhance the power system, voltage instability and line overloading have become a difficulty. The creation, transmission, and consumption of reactive power can all be used to investigate the nature of voltage stability. Reactive power unbalancing, which happens when the power system is strained, is one of the key reasons of voltage instability. Flexible AC transmission system (FACTS) devices are vital for enhancing the performance of a power system, but they are also quite expensive, thus they must be placed optimally in the power system. Static var compensator (SVC), a FACTS device, can be used to minimise flows in densely laden lines, resulting in minimal system loss and enhanced voltage stability. A method is proposed based on the index of line stability and overall system of VAR power losses was used to select the best position for the SVC device. Using VSI calculation on the power flow system, the weakest bus will be determined and will be assign as the optimal location for SVC. Also, along with this paper an observation on a power flow system with and without SVC are compared. Therefore, the finding of this research paper will show that SVC can stabilize the voltage profile of a power flow system.

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用SVC提高电力系统电压稳定性

不断增长的电力需求已将电网推向其稳定极限。由于采用了许多方法来增强电力系统，电压不稳定和线路过载已成为一个难题。无功功率的产生、传输和消耗都可以用来研究电压稳定性的本质。电力系统应变时产生的无功不平衡是电压不稳定的主要原因之一。柔性交流输电系统(FACTS)设备对于提高电力系统的性能至关重要，但它们也非常昂贵，因此必须在电力系统中进行最佳配置。静态无功补偿器(SVC)是一种FACTS设备，可用于减少密集负载线路中的流量，从而使系统损失最小化并增强电压稳定性。提出了一种基于线路稳定性指标和全系统无功功率损耗指标来选择SVC装置最佳位置的方法。通过潮流系统的VSI计算，确定最弱母线，并将其分配为SVC的最优位置。同时，对有SVC和无SVC的潮流系统进行了观测比较。因此，本文的研究结果将表明SVC可以稳定潮流系统的电压分布。

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

2022 IEEE 12th International Conference on Control System, Computing and Engineering (ICCSCE)

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