基于组件的电力系统故障传播建模方法

2015 Workshop on Modeling and Simulation of Cyber-Physical Energy Systems (MSCPES) Pub Date : 2015-04-13 DOI:10.1109/MSCPES.2015.7115412

A. Chhokra, A. Dubey, N. Mahadevan, G. Karsai

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引用次数: 3

摘要

弹性和可靠性对能源网络物理系统至关重要。电气保护系统包括检测元件(如距离继电器)和驱动元件(如断路器)，旨在通过快速隔离故障元件来保护系统免受异常操作和阻止故障传播。然而，保护装置本身的故障可以并且确实会导致重大系统事件和故障级联，通常会导致停电。本文补充了我们过去在时间因果图(TCD)上的工作，这是一种建模形式，旨在通过(a)描述一种从系统规范生成TCD模型的方法，以及(b)通过配置仿真模型来理解TCD推理器的系统故障动态，从而帮助推理故障进展。

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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A component-based approach for modeling failure propagations in power systems

Resiliency and reliability is of paramount impor- tance for energy cyber physical systems. Electrical protection systems including detection elements such as Distance Relays and actuation elements such as Breakers are designed to protect the system from abnormal operations and arrest failure propagation by rapidly isolating the faulty components. However, failure in the protection devices themselves can and do lead to major system events and fault cascades, often leading to blackouts. This paper augments our past work on Temporal Causal Diagrams (TCD), a modeling formalism designed to help reason about the failure progressions by (a) describing a way to generate the TCD model from the system specification, and (b) understand the system failure dynamics for TCD reasoners by configuring simulation models.

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2015 Workshop on Modeling and Simulation of Cyber-Physical Energy Systems (MSCPES)

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