Assessment of Health Indicators to Detect the Aging State of Commercial Second-Life Lithium-Ion Battery Cells through Basic Electrochemical Cycling

IF 4.6 4区 化学 Q2 ELECTROCHEMISTRY
Batteries Pub Date : 2023-11-01 DOI:10.3390/batteries9110542
Emanuele Michelini, Patrick Höschele, Syed Muhammad Abbas, Christian Ellersdorfer, Jörg Moser
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Abstract

Upon reaching certain limits, electric vehicle batteries are replaced and may find a second life in various applications. However, the state of such batteries in terms of aging and safety remains uncertain when they enter the second-life market. The aging mechanisms within these batteries involve a combination of processes, impacting their safety and performance. Presently, direct health indicators (HIs) like state of health (SOH) and internal resistance increase are utilized to assess battery aging, but they do not always provide accurate indications of the battery’s health state. This study focuses on analyzing various HIs obtained through a basic charging–discharging cycle and assessing their sensitivity to aging. Commercial 50 Ah pouch cells with different aging histories were tested, and the HIs were evaluated. Thirteen HIs out of 31 proved to be highly aging-sensitive, and thus good indicators. Namely, SOH upon charging and discharging, Coulombic efficiency, constant current discharge time, voltage relaxation profile trend, voltage–charge area upon discharging, hysteresis open circuit voltage HIs, and temperature difference between the tabs upon charging. The findings offer valuable insights for developing robust qualification algorithms and reliable battery health monitoring systems for second-life batteries, ensuring safe and efficient battery operation in diverse second-life applications.
基础电化学循环检测商用二次寿命锂离子电池老化状态的健康指标评估
在达到一定限度后,电动汽车电池被更换,并可能在各种应用中找到第二次生命。然而,当这些电池进入二次使用市场时,它们在老化和安全性方面的状况仍不明朗。这些电池的老化机制涉及一系列过程,影响其安全性和性能。目前,使用健康状态(SOH)和内阻增加等直接健康指标(HIs)来评估电池老化,但它们并不总是提供准确的电池健康状态指示。本研究的重点是分析通过一个基本充放电循环得到的各种HIs,并评估其对老化的敏感性。对不同老化历史的商用50 Ah袋细胞进行测试,并对HIs进行评估。31个HIs中有13个被证明是高度衰老敏感的,因此是很好的指标。即充放电时的SOH、库仑效率、恒流放电时间、电压弛豫曲线趋势、放电时的电压充电面积、滞后开路电压HIs、充电时片间温度差。研究结果为开发可靠的二次寿命电池鉴定算法和可靠的电池健康监测系统提供了有价值的见解,确保电池在各种二次寿命应用中安全高效地运行。
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
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