Flood-aware Optimal Power Flow for Proactive Day-ahead Transmission Substation Hardening

2022 IEEE Texas Power and Energy Conference (TPEC) Pub Date : 2022-01-10 DOI:10.1109/TPEC54980.2022.9750830

Mohadese Movahednia, Amin Kargarian Marvasti

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引用次数: 3

Abstract

Power system components, particularly electrical substations, may be severely damaged due to flooding, resulting in prolonged power outages and resilience degradation. This problem is more severe in low-elevated regions such as Louisiana. Protective operational actions such as placing tiger dams around substations before flooding can reduce substation vulnerability, damage costs, and energy not supplied cost, thus enhancing power grid resilience. This paper proposes a stochastic mixed-integer programming model for protecting transmission substations one day before flood events using tiger dams. A flood-aware optimal power flow problem is formulated for transmission system operators with respect to the protected/unprotected status of substations. The formulated model aims to identify critical substations whose protection maximizes grid resilience. The output of the proposed model is a day-ahead crew team schedule for installing tiger dams on transmission substations. The effectiveness of the proposed model is evaluated on a 6-bus system, and promising results are obtained.

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主动日前变电所加固的洪水感知最优潮流

电力系统部件，特别是变电站，可能因洪水而严重受损，导致长时间停电和恢复能力下降。这个问题在路易斯安那州等地势较低的地区更为严重。在洪水之前在变电站周围设置老虎坝等保护性操作措施可以降低变电站的脆弱性、损坏成本和未供应能源成本，从而增强电网的恢复能力。提出了一种利用虎坝在洪水发生前一天保护变电站的随机混合整数规划模型。针对变电站的保护/不保护状态，提出了输电系统运营商的洪水感知最优潮流问题。所制定的模型旨在确定关键变电站，其保护使电网弹性最大化。所提出的模型的输出是在输电变电站上安装虎式水坝的提前一天的工作小组时间表。在一个6总线系统上对该模型的有效性进行了评价，得到了令人满意的结果。

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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2022 IEEE Texas Power and Energy Conference (TPEC)

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