A Comparative Analysis of Flow-Based Resilience Indices Using Topological and Load Flow Models

Suhail Afzal, H. Mokhlis, H. Illias, Nurulafiqah Nadzirah Binti Mansor, A. S. M. Khairuddin, M. Sarmin
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引用次数: 1

Abstract

Power grid is recognized as one of the most important critical infrastructures of society. In our modern world, more parts of our everyday lives are now dependent on electrical energy, and thus hard to find a system that is utterly independent of electricity. Extreme weather events driven by climate change are a major threat to the power systems as a majority of the grid exists above ground, hence exposed to extreme weather. Recent widespread power cuts due to severe weather have proven that power grid is vulnerable to such events. The vulnerability of power system infrastructures is generally assessed using complex network analysis, and graph theory is a prominent approach that is computationally inexpensive, however, physical characteristics of the system are disregarded. Based on the geometric configuration of power networks, various indices have been proposed to measure the importance of components with respect to their contribution to the network functionality. In this paper, we have presented a comprehensive analysis of several flow-based indices using topological and physics-based models. Numerical results are carried out on IEEE 6-bus system. The outcomes of the analysis can provide important insights to the system operators and decision-makers on enhancing power system resilience.
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基于拓扑模型和潮流模型的流量弹性指数比较分析
电网被认为是社会最重要的关键基础设施之一。在现代社会,我们的日常生活越来越多地依赖于电能,因此很难找到一个完全独立于电的系统。气候变化导致的极端天气事件是对电力系统的主要威胁,因为大多数电网存在于地面上,因此暴露在极端天气中。最近由于恶劣天气导致的大范围停电已经证明,电网在这种情况下是脆弱的。电力系统基础设施的脆弱性通常使用复杂网络分析进行评估,图论是一种计算成本低廉的突出方法,然而,系统的物理特性被忽视了。基于电网的几何结构,人们提出了各种指标来衡量各组成部分对网络功能的贡献的重要性。在本文中,我们使用拓扑和物理模型对几种基于流量的指标进行了全面分析。在ieee6总线系统上进行了数值计算。分析结果可以为系统运营商和决策者提供提高电力系统弹性的重要见解。
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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