Fast Charging and Smart Charging Tests for Electric Vehicles Batteries Using Renewable Energy

Oscar Mauricio Forero Camacho, L. Mihet-Popa
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引用次数: 27

Abstract

Electric Vehicles (EV) technologies are still relatively new and under strong development. Although some standardized solutions are being promoted and becoming a new trend, there is an outstanding need for common platforms and sharing of knowledge and core technologies. This paper presents the development of a test platform, including three Li-ion batteries designed for EV applications, and three associated bi-directional power converters, for testing impacts on different advanced loadings of EV batteries. Different charging algorithms/profiles have been tested, including constant current and power, and forced and pulsed power. The aim of the tests has been to study the impact of smart charging and fast charging on the power system, on the battery state of health and degradation, and to find out the limitations of the batteries for a Smart Grid. The paper outlines the advantages and disadvantages of both tests in terms of regulation of the aggregated local power, power capacity and the power exchange with the grid. The smart charging tests performed have demonstrated that even with a simple control algorithm, without any forecasting, it is possible to provide the required charging and at the same time the power system services, reducing the peak power and the energy losses in the power connection line of the power exchange with the national grid.
使用可再生能源的电动汽车电池快速充电和智能充电试验
电动汽车(EV)技术相对较新,发展势头强劲。虽然一些标准化的解决方案正在被推广并成为一种新的趋势,但对通用平台和知识和核心技术的共享的需求非常突出。本文介绍了一个测试平台的开发,包括三个为电动汽车应用而设计的锂离子电池和三个相关的双向功率转换器,用于测试电动汽车电池不同高级负载的影响。已经测试了不同的充电算法/配置文件,包括恒流和功率,以及强制和脉冲功率。测试的目的是研究智能充电和快速充电对电力系统的影响,对电池健康状态和退化状态的影响,并找出智能电网电池的局限性。本文概述了两种试验方法在调节本地总功率、调节电力容量和与电网交换电力方面的优缺点。智能充电试验表明,即使使用简单的控制算法,无需任何预测,也可以在提供所需充电的同时提供电力系统服务,减少与国家电网交换电力连接线路的峰值功率和能量损失。
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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