A distributed robust control strategy for electric vehicles to enhance resilience in urban energy systems

IF 13 Q1 ENERGY & FUELS
Zihang Dong , Xi Zhang , Ning Zhang , Chongqing Kang , Goran Strbac
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引用次数: 7

Abstract

Resilient operation of multi-energy microgrid is a critical concept for decarbonization in modern power system. Its goal is to mitigate the low probability and high damaging impacts of electricity interruptions. Electrical vehicles, as a key flexibility provider, can react to unserved demand and autonomously schedule their operation in order to provide resilience. This paper presents a distributed control strategy for a population of electrical vehicles to enhance resilience of an urban energy system experiencing extreme contingency. Specifically, an iterative algorithm is developed to coordinate the charging/discharging schedules of heterogeneous electrical vehicles aiming at reducing the essential load shedding while considering the local constraints and multi-energy microgrid interconnection capacities. Additionally, the gap between electrical vehicle energy and the required energy level at the departure time is also minimised. The effectiveness of the introduced distributed coordinated approach on energy arbitrage and congestion management is tested and demonstrated by a series of case studies.

Abstract Image

提高城市能源系统弹性的分布式电动汽车鲁棒控制策略
多能微电网弹性运行是现代电力系统脱碳的关键概念。其目标是减轻电力中断的低概率和高破坏性影响。电动汽车作为一个关键的灵活性提供者,可以对未服务的需求做出反应,并自主安排其运行,以提供弹性。本文提出了一种分布式控制策略,以提高城市能源系统在经历极端突发事件时的弹性。具体而言,在考虑局部约束和多能微电网互联能力的前提下,提出了一种以减少必要减载为目标的异构电动汽车充放电调度协调迭代算法。此外,电动汽车能量与出发时所需能量水平之间的差距也被最小化。通过一系列的案例研究,验证了分布式协调方法在能源套利和拥堵管理方面的有效性。
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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来源期刊
Advances in Applied Energy
Advances in Applied Energy Energy-General Energy
CiteScore
23.90
自引率
0.00%
发文量
36
审稿时长
21 days
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