Battery Buffered EV Fast Chargers on Bornholm: Charging Patterns and Grid Integration

2022 57th International Universities Power Engineering Conference (UPEC) Pub Date : 2022-08-30 DOI:10.1109/UPEC55022.2022.9917690

Aidan Bowen, J. Engelhardt, T. Gabderakhmanova, M. Marinelli, Gunnar Rohde

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引用次数: 2

Abstract

The widespread adoption of electric vehicles (EVs) is a vital step in the reduction of emissions within the transport sector. However, the development of public fast charging infrastructure and the proper modeling of EV charging behaviours is required to enable this adoption. This paper presents charging data and patterns observed at a battery buffered fast charging DC microgrid on the Danish island of Bornholm. The charging sessions observed at this single site tend to be shorter with lower total energy transfer compared to studies with a wider scope. An atypical uptake of charges with higher than average energy transfer late in the evening is also observed. A simulation based study using this charging data to examine the effectiveness of the battery buffers at facilitating EV fast charging at reduced grid capacities is then presented. This study shows that the Bornholm DC microgrid would have been able to supply all observed EV charging at a reduced grid capacity of 11kW, enabling such a system to provide EV fast charging at a much wider range of locations.

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博恩霍尔姆的电池缓冲电动汽车快速充电器:充电模式和电网整合

电动汽车(ev)的广泛采用是减少运输部门排放的重要一步。然而，公共快速充电基础设施的发展和电动汽车充电行为的适当建模是实现这种采用的必要条件。本文介绍了在丹麦博恩霍尔姆岛的电池缓冲快速充电直流微电网中观察到的充电数据和模式。与更大范围的研究相比，在这一单一地点观察到的充电过程往往更短，总能量转移更低。在深夜还观察到电荷的非典型吸收，其能量转移高于平均水平。然后，提出了一项基于仿真的研究，利用这些充电数据来检验电池缓冲器在减少电网容量时促进电动汽车快速充电的有效性。这项研究表明，博恩霍尔姆直流微电网将能够以11kW的电网容量提供所有观察到的电动汽车充电，使这样一个系统能够在更广泛的位置提供电动汽车快速充电。

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 57th International Universities Power Engineering Conference (UPEC)

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