Comparison of Different Battery Balancing Methods for use with Second Life Batteries

2020 9th International Conference on Renewable Energy Research and Application (ICRERA) Pub Date : 2020-09-27 DOI:10.1109/ICRERA49962.2020.9242912

Jingxia Yang, D. Strickland, M. Abedi-Varnosfaderani

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Abstract

Second life batteries are batteries that have previously been used in hybrid or electric vehicles, but have dropped below 80% of their original capacity. It is possible to re-purpose these batteries for second life applications, for example, small domestic units to store excess solar power. However, the process of sorting the batteries, so that similar batteries can be used together, is onerous. The main reason for having similar batteries together is that most applications rely on series strings of batteries to get a suitable voltage, and as such the string capacity is limited by the weakest battery. This paper looks at how effective different active battery balancing techniques are at balancing dissimilar battery cells in series to see if this can be used as mitigation against sorting. The paper shows that while battery balancing can be used, the time taken to balance the batteries while keeping within the current limits is long and that the full battery pack capacity is unlikely to be realised. For the majority of types of battery balancing circuit using balancing as mitigation against battery sorting is not feasible.

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二次寿命电池不同平衡方法的比较

二次寿命电池是以前用于混合动力或电动汽车的电池，但已经下降到原始容量的80%以下。有可能将这些电池重新用于二次使用，例如，小型家用设备储存多余的太阳能。然而，对电池进行分类，使类似的电池可以一起使用的过程是繁重的。将类似的电池放在一起的主要原因是，大多数应用依赖于串联的电池串来获得合适的电压，因此，电池组的容量受到最弱电池的限制。本文研究了不同的有源电池平衡技术在平衡不同的串联电池时的有效性，看看这是否可以用作缓解分选的措施。该论文表明，虽然可以使用电池平衡，但在保持电流限制的情况下平衡电池所需的时间很长，并且不太可能实现电池组的全部容量。对于大多数类型的电池平衡电路，使用平衡作为对电池分拣的缓解是不可行的。

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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2020 9th International Conference on Renewable Energy Research and Application (ICRERA)

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