Voltage droop charging of electric vehicles in a residential distribution feeder

2012 3rd IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe) Pub Date : 2012-10-01 DOI:10.1109/ISGTEurope.2012.6465692

F. Geth, N. Leemput, J. V. Roy, J. Büscher, R. Ponnette, J. Driesen

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引用次数: 48

Abstract

Uncoordinated charging of electric vehicles may cause significant voltage deviations in some residential distribution grids. Grid voltage stabilizing load models, such as developed for distributed energy resources, can be applied to electric vehicle chargers as well. A fleet of 10 electric vehicles is considered, modeled according to current Flemish mobility behavior. For this fleet, different voltage droop load models for the chargers are discussed in terms of charging duration increase, grid losses and grid voltages. Load flow simulations are performed for a real and highly loaded residential grid in Belgium. In the worst case, the average charging rate is reduced to 0.847 pu of the nominal charging rate (4 kW). Accordingly, regardless of charging coordination, deviation from power set points will occur, thereby mitigating the impact on the grid. Furthermore, electric vehicle chargers equipped with voltage droop load models present robust, fault-tolerant behavior at times the coordination of the vehicles is hampered.

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住宅配电馈线中电动汽车电压下垂充电

电动汽车不协调充电可能会导致一些住宅配电网出现较大的电压偏差。针对分布式能源开发的电网稳压负荷模型也可以应用于电动汽车充电器。考虑一个由10辆电动汽车组成的车队，根据当前佛兰德人的移动行为进行建模。针对该机群，从充电时间增加、电网损耗和电网电压三个方面讨论了不同的充电器电压下降负荷模型。对比利时实际高负荷住宅电网进行了负荷流仿真。在最坏的情况下，平均充电速率降低到标称充电速率(4kw)的0.847 pu。因此，无论充电协调与否，都会出现偏离功率设定点的情况，从而减轻对电网的影响。此外，配备电压下垂负载模型的电动汽车充电器在车辆协调受阻时表现出鲁棒性和容错性。

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2012 3rd IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe)

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