基于多端口变换器的光伏+电池电动汽车充电站建模与控制

D. R. Ramprasanth
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引用次数: 3

摘要

电动汽车作为一种环保的交通工具,随着电动汽车数量的不断增加,对广泛分布的充电站有着迫切的需求,特别是由于车载电池容量有限。然而,快速充电站特别是超快速充电站可能会给电网带来尖峰时段潜在过载、突发性电源缺口和电压暂降等压力。本课题探讨了空间矢量调制在多端口变换器电动汽车充电站与光伏发电、电池储能系统集成中的实现与建模。在本文中,光伏发电、电动汽车充电站和电池储能(BES)的控制方案和组合提供了改进的稳定性,包括功率间隙平衡、调峰填谷和电压下垂补偿。因此,由于每日充电需求与充足的日间光伏发电之间的匹配,减少了对电网的影响。仿真结果验证了基于支持向量机技术的PV-BES多端口充电电路在不同模式下的优势。此外,将SiC器件应用到电动汽车充电站中,进一步提高了充电站的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling and Control of a Multiport Converter based EV Charging Station with PV and Battery
As an environmental friendly vehicle, the increasing number of electrical vehicles (EVs) leads to a pressing need of widely distributed charging stations, especially due to the limited on-board battery capacity. However, fast charging stations, especially super-fast charging stations may stress power grid with potential overload at peaking time, sudden power gap and voltage sag. This project discusses the implementation and modeling of space vector modulation to multiport converter based EV charging station integrated with PV power generation, and battery energy storage system. In this paper, the control scheme and combination of PV power generation, EV charging station, and battery energy storage (BES) provides improved stabilization including power gap balancing, peak shaving and valley filling, and voltage sag compensation. As a result, the influence on power grid is reduced due to the matching between daily charging demand and adequate daytime PV generation. Simulation results are presented to confirm the benefits at different modes of this proposed multiport EV charging circuits with the PV-BES configuration with SVM technique. Furthermore, SiC devices are employed to the EV charging station to further improve the efficiency.
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