Proactive Scheduling of Hydrogen Systems for Resilience Enhancement of Distribution Networks

2021 IEEE Kansas Power and Energy Conference (KPEC) Pub Date : 2021-04-19 DOI:10.1109/KPEC51835.2021.9446230

Hamed Haggi, Wei Sun, J. Fenton, P. Brooker

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引用次数: 4

Abstract

Recent advances in smart grid technologies bring opportunities to better control the modern and complex power grids with renewable integration. The operation of power systems, especially distribution network (DN), is facing with preeminent challenges from cyber-physical-human (CPH) threats and natural disasters. In order to provide better response against threats and improve the resilience of power grid, proactive plans and operational schemes are required by system operators to minimize the damages caused by CPH threats. To that end, this paper proposes a proactive plan for DN operation by using hydrogen (H2) systems to enhance the resilience through cost-effective long-term energy storage. Unlike batteries, H2 energy can be stored in the storage tanks days before the extreme event, and transformed into power by stationary fuel cell units to reduce load curtailment caused by CPH threats. The proposed framework is validated by testing on 33-node test feeder. Simulation results demonstrate that H2 systems can improve the resilience of DN during $N-m$ outages with more than 10 hours.

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提高配电网弹性的氢系统主动调度

近年来，智能电网技术的发展为利用可再生能源更好地控制现代复杂电网带来了机遇。电力系统特别是配电网的运行正面临着网络-物理-人(CPH)威胁和自然灾害的突出挑战。为了更好地应对威胁，提高电网的恢复能力，系统运营商需要制定积极的计划和运营方案，以尽量减少CPH威胁造成的损失。为此，本文提出了一种利用氢气(H2)系统的前瞻性DN运行方案，通过经济高效的长期储能来增强DN的弹性。与电池不同，氢气能量可以在极端事件发生前几天储存在储罐中，并通过固定燃料电池单元转化为电力，以减少CPH威胁造成的负荷削减。通过在33节点测试馈线上的测试，验证了该框架的有效性。仿真结果表明，H2系统可以提高DN在超过10小时的N-m - $中断期间的恢复能力。

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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2021 IEEE Kansas Power and Energy Conference (KPEC)

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