Distribution network congestion management by means of electric vehicle smart charging within a multi-microgrid environment

2014 IEEE International Electric Vehicle Conference (IEVC) Pub Date : 2014-12-01 DOI:10.1109/IEVC.2014.7056174

G. Del-Rosario-Calaf, M. Cruz-Zambrano, C. Corchero, R. Gumara-Ferret

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引用次数: 6

Abstract

The work presented in this paper aims to assess the impact of electric vehicle (EV) on distribution networks. An study is performed showing how the network impact can dramatically change if applying smart charging strategies opportunely integrated with other distributed energy resources (DER) with respect to a less-smart baseline operation. This paper focuses on the resolution of network constraints -voltage level violations in the short term, i.e. maintaining reliability and quality of service at transmission and distribution system operator (TSO and DSO) levels. A Spanish case study is derived in this work to obtain realistic network conditions within a 24-hour time horizon and one network reconfiguration is applied causing voltage level violations near a low voltage (LV) network including EV microgrids. The DSO then activates the available flexibility capacity of such microgrids in order to remove such violations. This case study is implemented in an experimental laboratory test and results are discussed regarding the impact of this congestion management strategy on the network and also real power flow and communication aspects.

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多微电网环境下电动汽车智能充电配电网拥塞管理

本文提出的工作旨在评估电动汽车(EV)对配电网的影响。一项研究表明，如果应用智能充电策略与其他分布式能源(DER)相结合，相对于不太智能的基线操作，网络影响将如何发生巨大变化。本文主要研究短期内解决电网约束-电压水平违规问题，即维持输配电系统运营商(TSO和DSO)水平的可靠性和服务质量。本文以西班牙为例，对包括电动汽车微电网在内的低压(LV)电网进行了重构，得到了24小时内的实际电网状况。然后，DSO激活这些微电网的可用灵活性，以消除此类违规行为。本案例研究在实验室测试中实施，并讨论了该拥塞管理策略对网络以及实际潮流和通信方面的影响。

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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2014 IEEE International Electric Vehicle Conference (IEVC)

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