How the utilised SOC window in commercial Li-ion pouch cells influence battery ageing

IF 5.4 Q2 CHEMISTRY, PHYSICAL Journal of Power Sources Advances Pub Date : 2021-04-01 DOI:10.1016/j.powera.2021.100054

Evelina Wikner , Erik Björklund , Johan Fridner , Daniel Brandell , Torbjörn Thiringer

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引用次数: 11

Abstract

In many lithium-ion battery (LIB) applications, e.g. hybrid vehicles and load-levelling storage systems, only part of the state-of-charge (SOC) range needs to be utilised. This offers the possibility to use an optimal SOC window to avoid LIB ageing. Here, a large test matrix is designed to study LIB ageing in a commercial 26 Ah pouch cell, in order to map the ageing behaviour at different SOC levels with respect to temperature and current. A quantification of the degradation modes, loss of lithium inventory (LLI), loss of active positive (LAM_PE) and negative (LAM_NE) electrode materials is made by analysing the change in the open circuit voltage (OCV). A key result is that lower SOC intervals significantly improved battery ageing. Even during harsh test conditions, such as high C-rates and temperatures, the cells deliver more than three times the expected number of full cycle equivalents. High SOC combined with high C-rate increase ageing where the dominating ageing mechanisms are LLI, followed by LAM_PE.

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商用锂离子袋电池中使用的SOC窗口如何影响电池老化

在许多锂离子电池(LIB)应用中，例如混合动力汽车和负载均衡存储系统，只需要利用部分充电状态(SOC)范围。这提供了使用最佳SOC窗口来避免LIB老化的可能性。在这里，设计了一个大型测试矩阵来研究商用26 Ah袋状电池中的LIB老化，以便绘制不同SOC水平下与温度和电流相关的老化行为。通过分析开路电压(OCV)的变化，量化了降解模式，锂库存(LLI)的损失，活性正极(LAMPE)和负极(LAMNE)电极材料的损失。一个关键的结果是较低的SOC间隔显著改善了电池老化。即使在恶劣的测试条件下，如高碳率和高温，电池也能提供三倍于预期的完整周期当量。高SOC结合高C-rate会增加老化，其中LLI是主要的老化机制，其次是LAMPE。

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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