Increasing the Integration Potential of EV Chargers in DC Trolleygrids: A Bilateral Substation-Voltage Tuning Approach

2022 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM) Pub Date : 2022-06-22 DOI:10.1109/speedam53979.2022.9841989

I. Diab, G. C. Mouli, P. Bauer

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引用次数: 8

Abstract

Light rail networks such as trolleybus grids have the potential to become multi-functional smart grids by using the excess capacity of the grid to implement PV systems, EV chargers, and storage. This paper offers a solution to increasing the potential for integration of EV chargers in the trolleygrid, without additional infrastructure costs, by simply tuning the nominal (no-load) voltages of bilaterally connected substations. This method shifts the load share between the two substations, creating more room for the integration of other utilities in a desired zone of the bus route. A mathematical derivation is presented, followed by a verifying case study using detailed and verified bus and trolleygrid simulation models for the city of Arnhem, the Netherlands. It is shown that by setting a substation nominal voltage from +10V compared to its bilateral substation to -10V, the substation can take, on average, as much as 7.5 percentage points less of the load share (from 45.9% to 38.4%) and see as much as 5 percentage points more of complete zero-load time (84.3% to 89.2%).

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提高直流有轨电车电网中电动汽车充电器的集成潜力:一种双边变电站电压调谐方法

轻轨网络，如无轨电车电网，有潜力成为多功能智能电网，利用电网的过剩容量来实施光伏系统、电动汽车充电器和存储。本文提供了一种解决方案，通过简单地调整双边连接变电站的标称(空载)电压，在不增加额外基础设施成本的情况下，增加电动汽车充电器在有轨电车电网中的整合潜力。这种方法转移了两个变电站之间的负荷分担，在公交线路的期望区域为其他公用事业的整合创造了更多的空间。给出了一个数学推导，然后使用荷兰阿纳姆市的详细和验证的公共汽车和无轨电车网格仿真模型进行了验证案例研究。结果表明，通过将变电站标称电压从+10V设置为与其双边变电站相比的-10V，变电站平均可以减少7.5个百分点的负载份额(从45.9%降至38.4%)，并看到多达5个百分点的完全零负载时间(84.3%至89.2%)。

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 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM)

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