Short-Term Tests, Long-Term Predictions – Accelerating Ageing Characterisation of Lithium-Ion Batteries

IF 5.1 4区材料科学 Q2 ELECTROCHEMISTRY

Batteries & Supercaps Pub Date : 2024-09-23 DOI:10.1002/batt.202300594

Dr.-Ing. Sabine Paarmann, Markus Schreiber, Ahmed Chahbaz, Felix Hildenbrand, Gereon Stahl, Marcel Rogge, Dr.-Ing. Philipp Dechent, Oliver Queisser, Sebastian Dominic Frankl, Pablo Morales Torricos, Yao Lu, Dr. Nikolay I. Nikolov, Prof. Maria Kateri, Prof. Dirk Uwe Sauer, Prof. Michael A. Danzer, Prof. Thomas Wetzel, Prof. Christian Endisch, Prof. Markus Lienkamp, Prof. Andreas Jossen, Dr. Meinert Lewerenz

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Abstract

For the battery industry, quick determination of the ageing behaviour of lithium-ion batteries is important both for the evaluation of existing designs as well as for R&D on future technologies. However, the target battery lifetime is 8–10 years, which implies low ageing rates that lead to an unacceptably long ageing test duration under real operation conditions. Therefore, ageing characterisation tests need to be accelerated to obtain ageing patterns in a period ranging from a few weeks to a few months. Known strategies, such as increasing the severity of stress factors, for example, temperature, current, and taking measurements with particularly high precision, need care in application to achieve meaningful results. We observe that this challenge does not receive enough attention in typical ageing studies. Therefore, this review introduces the definition and challenge of accelerated ageing along existing methods to accelerate the characterisation of battery ageing and lifetime modelling. We systematically discuss approaches along the existing literature. In this context, several test conditions and feasible acceleration strategies are highlighted, and the underlying modelling and statistical perspective is provided. This makes the review valuable for all who set up ageing tests, interpret ageing data, or rely on ageing data to predict battery lifetime.

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短期测试，长期预测 - 加速锂离子电池的老化表征

对于电池行业来说，快速确定锂离子电池的老化特性对于评估现有设计和研发未来技术都非常重要。然而，电池的目标使用寿命为 8-10 年，这意味着老化率较低，导致实际操作条件下的老化测试时间过长。因此，需要加快老化特性测试，以便在几周到几个月的时间内获得老化模式。已知的策略，如增加应力因素（如温度、电流）的严重程度，以及以特别高的精度进行测量，在应用时都需要小心谨慎，以获得有意义的结果。我们注意到，在典型的老化研究中，这一挑战并没有得到足够的重视。因此，本综述介绍了加速老化的定义和挑战，以及现有的加速电池老化表征和寿命建模方法。我们系统地讨论了现有文献中的方法。在此背景下，我们强调了几种测试条件和可行的加速策略，并提供了基本的建模和统计视角。因此，本综述对所有进行老化测试、解释老化数据或依靠老化数据预测电池寿命的人员都很有价值。

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 & Supercaps Multiple-

CiteScore

8.60

自引率

5.30%

发文量

223

期刊介绍： Electrochemical energy storage devices play a transformative role in our societies. They have allowed the emergence of portable electronics devices, have triggered the resurgence of electric transportation and constitute key components in smart power grids. Batteries & Supercaps publishes international high-impact experimental and theoretical research on the fundamentals and applications of electrochemical energy storage. We support the scientific community to advance energy efficiency and sustainability.