大规模超快充电站并网的谐波共振风险

Y. Sun, E. D. de Jong, V. Ćuk, J. Cobben
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引用次数: 8

摘要

插电式电动汽车(PEV)越来越受到消费者的青睐,因为与汽油动力汽车相比,它们提供了经济可行且环保的交通解决方案。良好的充电站网络覆盖率已被确定为采用电动汽车的主要推动因素。因此,超快充电站(UFCS)的可用性不仅是技术先决条件,也是消费者接受将电动交通提升到一个新水平的关键因素。为了使UFCS在现有电网中顺利集成,从而加快PEV的吸收速度,本文详细阐述了诺顿当量的解析推导,用于研究几个UFCS连接到本地中压(MV)电网时的谐波谐振。诺顿等效模型的阻抗明确地表示了小信号扰动下功率变换器的输入导纳。以连接了10个ufcs的荷兰Bronsbergen中压电网为例进行了研究,并通过谐波失真计算显示了其对电网谐振点的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Harmonic resonance risk of massive ultra fast charging station grid integration
Plug-in electric vehicle (PEV) is gaining steadily preference among consumers as they offer economically viable and environmentally friendly transportation solutions when compared to their gasoline powered counterparts. A decent charging station network coverage has been identified as the main enabler for the adoption of PEV. Therefore, the availability of ultrafast charging station (UFCS) is not only a technical prerequisite but also a key enabler for the consumer acceptance to bring the electric mobility to the next level. To facilitate the smooth integration of UFCS in the existing power grid, hence rapid uptake rate of PEV, this article elaborates on the analytical derivation of the norton equivalent for the study of harmonic resonance when several UFCSs are connected to the local medium voltage (MV) grid. The impedance of norton equivalent model explicitly represents the input admittance of power converter under small signal perturbation. A case study is performed on the Dutch Bronsbergen MV grid to which 10 UFCSs are connected and its impact on the grid resonance point is shown with harmonic distortion calculation.
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