驱动循环对燃料电池动力轻型电动汽车供电需求的影响分析

V. Boscaino, R. Miceli
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引用次数: 3

摘要

本文主要研究燃料电池驱动的轻型汽车。通过MATLAB/Simulink实现了电机、电气驱动、燃料电池和电力电子系统的仿真模型。该模型非常适合进行驾驶循环测试,该测试再现了电动汽车在城市、农村或高速公路上的速度模式。本文旨在从续航里程、成本和供电设备尺寸等方面研究最适合电动汽车的行驶工况,以设计高性能的混合动力电源。为此,选择了立法和现实世界的驾驶循环。通过对仿真结果的分析,研究了驱动循环对电力系统要求和尺寸的影响。在实验室样机上的实验结果验证了所提出的分析。
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Analysis of driving cycles effects on power supply requirements of a fuel cell powered light-weight electric vehicle
In this paper, fuel cell powered lightweight vehicles are addressed. A MATLAB/Simulink simulation model including motor, electrical drive, the fuel cell and power electronics systems is implemented. The model is well suited to perform the driving cycle test, which reproduces the speed pattern of an electric vehicle through urban, rural or motorway routes. This paper aims at investigating the most suited driving cycle to design high performances hybrid power supply for electric vehicles in terms of cruising range, cost and size of the power supply equipment. For this purpose, a legislative and a real-world driving cycles are selected. Effects of driving cycles on the power system requirements and size are investigated by the analysis of simulation results. Experimental results on the laboratory prototype are shown to validate the proposed analysis.
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