A Comprehensive Approach for Bulk Power System Reliability Assessment

2007 IEEE Lausanne Power Tech Pub Date : 2007-07-01 DOI:10.1109/PCT.2007.4538552

Fang Yang, A. Meliopoulos, G. Cokkinides, G. Stefopoulos

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引用次数: 28

Abstract

This paper proposes a comprehensive approach for bulk power system reliability assessment. Specifically, a framework of security-constrained adequacy evaluation (SCAE) based on analytical techniques is developed to assess the ability of a bulk power system to supply electric load while satisfying security constraints. This approach encompasses three main steps: (a) critical contingency selection, (b) effects analysis, and (c) reliability index computation. Based on an advanced single-phase quadratized power flow, a state linearization approach is developed to improve contingency selection accuracy, and a non-divergent optimal quadratized power flow (NDOQPF) algorithm is proposed to perform contingency effects analysis realistically and efficiently while assuring the convergence of power flow solution. The NDOQPF algorithm is also capable of solving the RTO/ISO operational model in the deregulated environment. In addition, a breaker-oriented system network model is developed, based on which the SCAE framework can include the effects of protection system hidden failures on bulk power system reliability as well. The comprehensive approach is demonstrated with IEEE reliability test systems.

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大容量电力系统可靠性评估的综合方法

本文提出了一种大容量电力系统可靠性评估的综合方法。在此基础上，提出了一种基于分析技术的安全约束充分性评估(SCAE)框架，以评估大容量电力系统在满足安全约束的情况下供电负荷的能力。该方法包括三个主要步骤:(a)关键偶然性选择，(b)影响分析，以及(c)可靠性指标计算。基于一种先进的单相二次潮流，提出了一种状态线性化方法来提高权变选择的精度，并提出了一种非发散最优二次潮流(NDOQPF)算法，在保证潮流解收敛的同时，真实有效地进行权变效应分析。NDOQPF算法还能够在放松管制的环境中解决RTO/ISO操作模型。此外，建立了面向断路器的系统网络模型，在此基础上，SCAE框架可以考虑保护系统隐藏故障对大容量电力系统可靠性的影响。通过IEEE可靠性测试系统对该综合方法进行了验证。

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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2007 IEEE Lausanne Power Tech

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