A novel method for optimal location of shunt compensation in an interconnected system

2015 International Conference on Nascent Technologies in the Engineering Field (ICNTE) Pub Date : 1900-01-01 DOI:10.1109/ICNTE.2015.7029930

Megha Fernandes, S. George

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引用次数: 1

Abstract

Power transfer through long distance transmission lines faces voltage stability and power flow issues in an interconnected system. These issues can be minimized by placing suitable compensators at appropriate locations. Conventional load flow analysis that are carried out to find line flows and voltage in the system, does not consider compensators. This paper deals with the modification of load flow analysis by incorporating a single mid-point shunt compensator in an interconnected system. As the power flow equations are non-linear, Lagrangian optimization technique is used to obtain optimal shunt compensation to improve voltage profile and power system loadability under steady state condition. A program is developed in MATLAB platform to modify the conventional load flow analysis to optimize power system loadability as well as maintaining the voltage within limits. The advantage of the program is that it gives the best location and optimal compensation to satisfy required constraints. The validity of the program is tested on a five bus system and results obtained are presented in this paper.

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互联系统中并联补偿优化位置的一种新方法

在互联系统中，长距离输电线路的电力传输面临着电压稳定和潮流问题。这些问题可以通过在适当的位置放置合适的补偿器来最小化。传统的负荷潮流分析是为了寻找系统中的线路流量和电压，而没有考虑补偿器。本文讨论了在互联系统中加入单个中点并联补偿器对潮流分析的修正。由于潮流方程是非线性的，采用拉格朗日优化技术来获得最优的并联补偿，以改善稳态状态下的电压分布和电力系统的负载性。在MATLAB平台上编写了一个程序，对传统的潮流分析方法进行修改，以优化电力系统的可负荷性，并使电压保持在限定范围内。该方案的优点是能给出满足约束条件的最优定位和最优补偿。在五总线系统上对程序的有效性进行了测试，并给出了测试结果。

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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2015 International Conference on Nascent Technologies in the Engineering Field (ICNTE)

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