重庆理工大学学报(自然科学) ›› 2023, Vol. 37 ›› Issue (2): 19-27.doi: 10.3969/j.issn.1674-8425(z).2023.02.003

• “先进动力电池状态估计及预测技术研究”专栏 • 上一篇    下一篇

考虑动态曲线特征的退役锂离子电池分选方法

聂金泉,黄燕琴,高洋洋   

  1. (1.湖北文理学院 汽车与交通工程学院,湖北 襄阳 441053; 2.纯电动汽车动力系统设计与测试湖北省重点实验室,湖北 襄阳 441053; 3.襄阳市公共检验检测中心,湖北 襄阳 441000)
  • 出版日期:2023-03-21 发布日期:2023-03-21
  • 作者简介:聂金泉,男,副教授,主要从事机电系统测试与控制研究,Email:549670751@qq.com;通讯作者 黄燕琴,女,硕士 研究生,主要从事动力电池测试评价研究,Email:2323411292@qq.com。

Sorting method of retired lithium-ion batteries considering dynamic curve characteristics

  • Online:2023-03-21 Published:2023-03-21

摘要: 退役锂离子电池成组时,单体电池间的性能差异会造成模组性能的快速衰减,使得 模组循环使用寿命降低,甚至引发安全问题。为此,以 100节退役锂离子电池为研究对象进行 充放电实验和内阻测试,提出了一种退役电池一致性分选方法。运用能量差表述电池极化差 异,选用容量、能量差、充电电压、放电电压、充电内阻、放电内阻 6个指标进行多参数预分选;综 合考虑电压偏差与容量偏差,采用 Kmeans算法进行动态曲线分选;针对 Kmeans算法 K值不 确定的问题,分别对电压、能量曲线进行归一化处理,基于频率分布直方图和频率分布曲线分析 确定 K值。实验结果表明:该分选方法能有效地改善电池的不一致性,分选后的电池充电电压 一致性提高 60%~94%,放电电压一致性提高 10%~41%,容量一致性提高 54%~67%。近处纹理 缺失环境下的定位失效问题,保持了较高的定位精度,具有良好的环境适应性。

关键词: 退役动力电池, 分选方法, 一致性

Abstract: Lithium-ion batteries have the advantages of high energy density, long cycle life and being free from memory effect, and are widely used in electric vehicles and energy storage. In recent years, how to deal with retired batteries has become an urgent development problem for the new energy vehicle industry. It is an effective way to solve this problem by applying retired batteries to the energy storage system on a large scale. When the retired lithium-ion batteries are grouped, the performance difference between individual batteries will cause a rapid attenuation of module performance, shortening the module cycle. When a lithium-ion battery is assembled from these multiple retired cells, the difference in the performance of each cell will cause a rapid attenuation of battery performance. The attenuation of battery performance will reduce cycle life and even cause safety problems. In order to reduce performance difference of decommissioned batteries after grouping and improve the clustering effect of K-means algorithm, this paper takes 100 of the decommissioned 18 650 lithium batteries purchased in the same batch as the research objects for charge-discharge tests and internal resistance tests. The charge and discharge experiments and internal resistance tests of 100 retired lithium-ion cells are conducted. A consistency sorting method is proposed based on dynamic curve. Firstly, in terms of parameter selection, considering that the internal resistance of a battery and the internal resistance of a connector will consume part of the electric during the charging and discharging process, and the electrochemical polarization and concentration polarization of Li+ insertion and detachment will also cause a part of energy loss, the difference between the charging energy and the discharging energy can be used to describe the chemical polarization and concentration polarization in the general testing process. A consistent sorting and reorganization method for retired lithium-ion batteries considering dynamic curve characteristics is proposed, and the multi-parameter sort is carried out by using six indicators, including capacity, energy difference, charging voltage, discharging voltage, charging resistance and discharging resistance. In consideration of the correlation between the sorting variables, in order to reduce the sorting variables and simplify the calculation, factor analysis is applied to sort variables of retired batteries, and the batteries are classified by using the inter-group connection clustering method and the square Euclidean distance as the measurement standard. In terms of sorting methods, the dynamic changes of battery parameters during charging and discharging are taken into account through the dynamic characteristic sorting method. Combining with multi-parameter sorting, higher consistency can be achieved. The existing dynamic sorting methods generally use voltage curve for sorting, but this method cannot reflect current, capacity and other performance parameters. The voltage curve during constant voltage charging cannot show the change trend of battery energy and capacity; the energy curve at the time of shelving cannot represent the change of battery voltage. In addition, the consistency of voltage and capacity should be taken into account during battery combination to avoid energy waste. Therefore, on the basis of multi-parameter sorting, energy difference is used to represent the difference of cell polarization. Then, the K-means algorithm is used to carry out dynamic curve sorting based on voltage deviation and capacity deviation. Finally, in terms of algorithm improvement, to solve the problem of an uncertain K value, the voltage and energy curves are normalized respectively. According to an analysis of frequency distribution histogram and frequency distribution curve, the K value of clusters is determined. The voltage standard deviation of 100 retired lithium-ion batteries before sorting is 0.043 1, of Class I batteries after sorting is 0.203 7, and of Class Ⅱ batteries after sorting is 0.011 1. It can be seen that the voltage consistency of type I battery is poor, indicating that performance degradation of the battery pack is caused by performance degradation of very few batteries. The results of experiment show that the method can effectively improve inconsistency of the battery. The consistency of charging voltage increases by about 60%~94%. The consistency of discharge voltage increases by about 10%~41%. The consistency of capacity increases by about 54%~67%.

中图分类号: 

  • TM912.9