Application of Network Structural Properties of a Power System for Voltage Stability Assessment in an Electric Power Grid

2021 International Conference on Sustainable Energy and Future Electric Transportation (SEFET) Pub Date : 2021-01-21 DOI:10.1109/SeFet48154.2021.9375653

I. Adebayo, Yanxia Sun

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引用次数: 1

Abstract

The problem posed by total blackout experienced in some parts of the globe due to power system (PS) voltage instability has been traced to continuous increase in power demand. Thus, it becomes imperative to assess voltage stability in a power grid. In this paper, a method which depends on the network characteristics of a power system is investigated. This method makes use of the admittance matrix between load to load nodes in an interconnected power system. Eigenvalue decomposition method is applied on the submatrix of the admittance matrix partitioned into generator and load nodes. A comparison of the suggested method with a load flow based voltage collapse proximity index (VCPI) is also carried out. The effectiveness of methods considered is tested on both the IEEE 30-bus and the Southern Indian 10-bus power networks. Results obtained shows that, the proposed method could assist and serve as a great tool in the investigation of voltage stability in a system as it decreases computational burdens.

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电力系统网络结构特性在电网电压稳定性评估中的应用

全球部分地区因电力系统电压不稳定导致的全面停电问题，可以追溯到电力需求的持续增长。因此，对电网电压稳定性进行评估势在必行。本文研究了一种基于电力系统网络特性的方法。该方法利用了互联电力系统中负载节点间的导纳矩阵。采用特征值分解的方法对划分为发电机节点和负荷节点的导纳矩阵的子矩阵进行分解。并将该方法与基于负荷潮流的电压崩溃接近指数(VCPI)进行了比较。所考虑的方法的有效性在IEEE 30总线和南印度10总线电网上进行了测试。结果表明，该方法减少了计算量，可以作为研究系统电压稳定性的重要工具。

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2021 International Conference on Sustainable Energy and Future Electric Transportation (SEFET)

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