Cyber-Physical Vulnerability and Security Analysis of Power Grid with HVDC Line

2019 North American Power Symposium (NAPS) Pub Date : 2019-10-01 DOI:10.1109/NAPS46351.2019.9000209

A. Gholami, M. Mousavi, A. Srivastava, A. Mehrizi‐Sani

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引用次数: 11

Abstract

The High Voltage Direct Current (HVDC) technology is typically used for power transfer over longer distances or asynchronous back-to-back connections of the ac networks, or connecting cluster of high power renewable energies to the grid. The performance of the power system can be impacted by the HVDC control and operations. Functionality of the HVDC controllers depend on the information and communication technologies and are vulnerable to cyber-attacks. Hence, the cyber-physical security analysis of the HVDC system needs to be investigated. This study is a step towards cyber-physical analysis for grid with HVDC system by analyzing: 1) the cyber system vulnerabilities of the HVDC system, 2) the integrated cyber-physical system model developement with HVDC technology, 3) the effect of cyber-attacks on the HVDC and impact on the dynamic voltage stability of the power system, and 4) the cyber-attack detection and mitigation. Also, different cyber-attack scenarios on the HVDC system are developed for analyzing the developed approach. The proposed analysis are validated by simulation of the several case studies on the integrated cyber-physical model of the IEEE 9-bus system with the HVDC technology.

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高压直流电网网络物理漏洞及安全分析

高压直流(HVDC)技术通常用于长距离的电力传输或交流网络的异步背靠背连接，或将高功率可再生能源集群连接到电网。高压直流的控制和运行直接影响着电力系统的性能。高压直流控制器的功能依赖于信息和通信技术，容易受到网络攻击。因此，需要对高压直流系统的网络物理安全分析进行研究。本研究通过分析:1)高压直流系统的网络系统漏洞，2)高压直流技术集成的网络物理系统模型开发，3)网络攻击对高压直流系统的影响以及对电力系统动态电压稳定的影响，4)网络攻击的检测和缓解，向高压直流电网网络物理分析迈出了一步。并针对不同的网络攻击场景，对所提出的方法进行了分析。通过对IEEE 9总线系统与高压直流技术的集成网络物理模型进行仿真，验证了上述分析的有效性。

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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2019 North American Power Symposium (NAPS)

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