燃料电池-超级电容器混合动力汽车性能分析

C. Armenta-Déu, Alejandro Arenas
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摘要

本文提出了一种评价由燃料电池和超级电容器组成的电动汽车混合动力系统性能的新方法。该研究将其结果与纯电动汽车的结果进行了比较。该方法扩展到ECO, NORMAL和SPORT三种驾驶模式,对应于保守,中等和激进加速,以及低,中,高能量需求三种驾驶条件。我们开发了一个模拟过程来评估作为研究原型的特定电动汽车的能量消耗和能量率。该方法适用于包括加速、减速、制动和等速路段在内的驾驶路线,再现了城市旅程中的标准驾驶条件。所提出的方法在每个加速过程中考虑ECO、NORMAL和SPORT三种混合驾驶模式,每种模式的分数从0%到100%不等。该方法优化了城市环境中当前驾驶模式的模拟结果。仿真结果表明,平均能耗降低37%,车辆重量降低27.1%,有助于降低能源使用。该研究的结论是,在电动汽车中使用混合动力系统,即燃料电池/超级电容器,而不是电池是有益的,特别是在频繁加速过程的旅程中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance Analysis of Electric Vehicles with a Fuel Cell–Supercapacitor Hybrid System
This paper presents a new methodology to evaluate the performance of an electric vehicle hybrid power system consisting of a fuel cell and a supercapacitor. The study compares the results to those obtained for a battery electric vehicle. The methodology extends to three driving modes, ECO, NORMAL, and SPORT, corresponding to conservative, moderate, and aggressive acceleration, and three driving conditions, low, medium, and high energy demand. We develop a simulation process to evaluate the energy consumption and the energy rate of a specific electric vehicle used as a prototype for the study. The methodology applies to a driving route that includes acceleration, deceleration, braking, and constant speed segments, reproducing standard driving conditions in urban journeys. The proposed method considers combined driving modes, ECO, NORMAL, and SPORT, in each acceleration process, with variable fractions, from 0% to 100%, for each mode. This methodology optimizes the simulation results for the current driving patterns in urban environments. The simulation results show an average reduction in energy consumption of 37% and 27.1% in vehicle weight, contributing to lower energy use. The study concludes that using a hybrid power system, a fuel cell/supercapacitor, instead of a battery in electric vehicles is beneficial, especially in journeys with frequent acceleration processes.
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