Techno-Economic Impacts of Battery Replacement for Different EV Usage Patterns

IF 4.8 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of Vehicular Technology Pub Date : 2025-03-28 DOI:10.1109/OJVT.2025.3574574

Martin Chaud;Ronan German;Eric Hittinger;Alain Bouscayrol;Elodie Castex

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Abstract

The driving range of an electric vehicle is limited by the energy of the battery. It decreases over time due to ageing. The vehicle user can replace the battery after some operational period to restore the initial capacity. This paper studies the impact of battery replacements from the driving range and economic perspectives. A global vehicle model is defined. It considers the ageing, the economic value and the electro thermal model of the battery in interaction with the vehicle usage. A Renault Zoe is chosen as a reference vehicle. Three different usage scenarios are defined: low-intensity urban, medium-intensity rural and high-intensity motorway driving cycles for a 12-year vehicle lifespan. The results show that replacing the battery at least one time is necessary for high motorway daily usage. Frequently replacing the battery (every three years) has a positive impact on the driving range while increasing the battery cost of ownership. A high annual mileage can have more impact than battery replacements. User trade-offs between driving range and battery cost are presented.

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电池更换对不同电动汽车使用模式的技术经济影响

电动汽车的行驶里程受限于电池的能量。它会随着年龄的增长而减少。车辆用户可以在运行一段时间后更换电池以恢复初始容量。本文从续驶里程和经济性两方面对电池更换的影响进行了研究。定义了一个全局车辆模型。它考虑了电池的老化、经济价值和电热模型与车辆使用的相互作用。我们选择雷诺Zoe作为参考车型。定义了三种不同的使用场景：低强度城市、中等强度农村和高强度高速公路行驶周期，车辆使用寿命为12年。结果表明，在高速公路的日常使用中，至少需要更换一次电池。频繁更换电池（每三年一次）对行驶里程有积极影响，同时增加了电池的拥有成本。较高的年行驶里程可能比更换电池更有影响。给出了用户在行驶里程和电池成本之间的权衡。

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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