Regeneration of Hybrid and Electric Vehicle Batteries: State-of-the-Art Review, Current Challenges, and Future Perspectives

IF 4.6 4区 化学 Q2 ELECTROCHEMISTRY Batteries Pub Date : 2024-03-14 DOI:10.3390/batteries10030101
Rafael Martínez-Sánchez, Ángel Molina-García, A. Ramallo-González
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Abstract

Batteries have been integral components in modern vehicles, initially powering starter motors and ensuring stable electrical conditions in various vehicle systems and later in energy sources of drive electric motors. Over time, their significance has grown exponentially with the advent of features such as “Start & Stop” systems, micro hybridization, and kinetic energy regeneration. This trend culminated in the emergence of hybrid and electric vehicles, where batteries are the energy source of the electric traction motors. The evolution of storage for vehicles has been driven by the need for larger autonomy, a higher number of cycles, lower self-discharge rates, enhanced performance in extreme temperatures, and greater electrical power extraction capacity. As these technologies have advanced, so have they the methods for their disposal, recovery, and recycling. However, one critical aspect often overlooked is the potential for battery reuse once they reach the end of their useful life. For each battery technology, specific regeneration methods have been developed, aiming to restore the battery to its initial performance state or something very close to it. This focus on regeneration holds significant economic implications, particularly for vehicles where batteries represent a substantial share of the overall cost, such as hybrid and electric vehicles. This paper conducts a comprehensive review of battery technologies employed in vehicles from their inception to the present day. Special attention is given to identifying common failures within these technologies. Additionally, the scientific literature and existing patents addressing regeneration methods are explored, shedding light on the promising avenues for extending the life and performance of automotive batteries.
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混合动力和电动汽车电池的再生:最新技术回顾、当前挑战和未来展望
电池一直是现代汽车不可或缺的部件,最初为起动机提供动力,确保各种汽车系统的电气条件稳定,后来成为驱动电机的能源。随着时间的推移,随着 "启动和停止 "系统、微混合动力和动能再生等功能的出现,电池的重要性成倍增长。这一趋势最终导致了混合动力车和电动车的出现,电池成为电动牵引电机的能源。推动汽车存储技术发展的动力来自于对更大的自主性、更高的循环次数、更低的自放电率、更强的极端温度性能和更大的电力提取能力的需求。随着这些技术的发展,其处置、回收和循环利用的方法也在不断进步。然而,一个经常被忽视的重要方面是电池在使用寿命结束后的再利用潜力。针对每种电池技术,都开发了特定的再生方法,旨在将电池恢复到初始性能状态或非常接近初始性能的状态。这种对电池再生的关注具有重要的经济意义,特别是对于电池在总成本中占很大比例的汽车,如混合动力汽车和电动汽车。本文全面回顾了汽车从诞生至今所采用的电池技术。本文特别关注如何识别这些技术中的常见故障。此外,本文还探讨了有关再生方法的科学文献和现有专利,揭示了延长汽车电池寿命和性能的可行途径。
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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来源期刊
Batteries
Batteries Energy-Energy Engineering and Power Technology
CiteScore
4.00
自引率
15.00%
发文量
217
审稿时长
7 weeks
期刊最新文献
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