Stochastic Network Reduction Technique for Calculations of Electrical Power System Structural Reliability

2016 Second International Symposium on Stochastic Models in Reliability Engineering, Life Science and Operations Management (SMRLO) Pub Date : 2016-02-15 DOI:10.1109/SMRLO.2016.33

V. Oboskalov, S. Timashev, A. Bushinskaya, S. Gusev

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引用次数: 2

Abstract

This paper considers calculation of structural reliability indices (SRI) for electrical power system (EPS), when "cutoff" failures are taken into account. Calculations are based on "exclusion-renewal" technique. In this paper, the design scheme slightly differs from the electrical scheme. Stochastic network reduction (SNR) technique is considered as the main tool for network reduction. SNR also accounts for directional elements, which have different SRI in forward and backward direction of power flow. The paper shows that difference in resulting SRI of diverse software solutions (SS) arise from different approaches to SNR of series-connected elements. The article compares "p" and "gamma" network reduction techniques (NRT). Taking into account specific nature of EPS, the paper proposes the "gamma" NRT for practical calculations of the EPS structural reliability. The paper also considers implementation of the rhomb NRT at the stage of renewal of the rank 2 nodes. This method is based on parallel calculus of the SRI, which permits substantial speed-up of the design procedure.

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电力系统结构可靠度计算的随机网络约简技术

本文研究了考虑“截止”故障的电力系统结构可靠性指标的计算方法。计算基于“排除更新”技术。本文的设计方案与电气方案略有不同。随机网络约简技术被认为是网络约简的主要工具。信噪比还考虑了方向因素，方向因素在潮流的正向和反向上具有不同的SRI。本文表明，不同软件解决方案(SS)的结果SRI的差异源于对串联元件信噪比的不同处理方法。本文比较了“p”和“γ”网络约简技术(NRT)。考虑到EPS结构的特殊性，本文提出了用于EPS结构可靠度实际计算的“γ”NRT。本文还考虑了菱形NRT在2级节点更新阶段的实现。该方法基于SRI的并行演算，从而大大加快了设计过程。

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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2016 Second International Symposium on Stochastic Models in Reliability Engineering, Life Science and Operations Management (SMRLO)

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