A Review of Range Extender Technologies in Electric Vehicles

International Journal of Sustainable Transportation Technology Pub Date : 2020-04-29 DOI:10.31427/ijstt.2020.3.1.2

Evelyn Evelyn, A. Aziz, P. Sambegoro

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引用次数: 2

Abstract

With the increasing global concern on negative environmental effect from the transportation sector, conventional automobile technologies will not be viable for much longer. Countries like the EU and China have introduced emission related regulations which are stricter than ever. This has compelled automotive manufacturer to turn to Electric Vehicles (EV) as the most effective solution to this issue. There are mainly two types of EV, namely Battery Electric Vehicle (BEV) and Hybrid Electric Vehicle (HEV). Both has its own strength and shortcomings, BEV with zero emission but limited range while HEV has better range at the expense of higher emission. Extended Range Electric Vehicle (EREV) provides a midpoint between these options. This option provides the best of both worlds by allowing users to switch between both systems depending on the vehicle’s operating condition. This paper aims to presents a variety of Range Extender (RE) configurations based on its working principle and type of fuel used. Internal combustion engine, fuel cell, and microturbine are what RE is commonly powered by. The advantages and disadvantages are evaluated and compared to determine the optimal option. It was concluded that depending on fuel availability, space, and efficiency requirement, each configuration has its own merit.

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电动汽车增程式技术综述

随着全球对交通部门对环境的负面影响的日益关注，传统的汽车技术将不再可行。像欧盟和中国这样的国家已经出台了比以往更严格的排放相关法规。这迫使汽车制造商转向电动汽车(EV)作为解决这一问题的最有效的方法。电动汽车主要有两种，即纯电动汽车(BEV)和混合动力汽车(HEV)。两者各有优缺点，纯电动汽车零排放但续航里程有限，而混合动力汽车以更高的排放为代价，续航里程更好。增程式电动汽车(EREV)在这些选择之间提供了一个中间点。该选项允许用户根据车辆的运行状况在两种系统之间切换，从而提供了两全其美的效果。本文旨在根据增程器的工作原理和使用的燃料类型介绍增程器的各种配置。内燃机、燃料电池和微型涡轮机是可再生能源通常的动力来源。评估和比较优点和缺点，以确定最优方案。结论是，根据燃料的可用性、空间和效率要求，每种配置都有自己的优点。

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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International Journal of Sustainable Transportation Technology

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