Experimental and model analysis of the thermoelectric characteristics of serial arc in prismatic lithium‐ion batteries

IF 1.6 Q4 ENERGY & FUELS
Wenqiang Xu, Languang Lu, Kai Zhou, Yalun Li, Bin Gao
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引用次数: 0

Abstract

Aiming at the electrical safety problems of lithium‐ion battery system due to series arc fault, a finite element simulation model of square battery under series arc fault is established based on the magnetohydro‐dynamic equations. The arc voltages at different electrode spacings are analysed, and the electric field distribution, magnetic field distribution, arc temperature and flow velocity around the arc are investigated to determine the maximum values and locations of the electric field strength, magnetic density, arc temperature and flow velocity at the time of the arc fault. Then, on the basis of the series arc experimental platform, determine the value of the arc starting voltage and the critical power supply voltage that produces a stable arc, analyse the evolution of the arc burning time with different loop currents, the evolution of the arc of the separation gap, and then summarise the effect of the disaster on the battery. Finally, the errors of simulation and experimental arc voltage and battery surface temperature are analysed to verify the accuracy of the model.
棱柱形锂离子电池串联电弧热电特性的实验和模型分析
针对串联电弧故障引起的锂离子电池系统电气安全问题,基于磁流体动力学方程建立了串联电弧故障下方形电池的有限元仿真模型。分析了不同电极间距下的电弧电压,研究了电弧周围的电场分布、磁场分布、电弧温度和流速,确定了故障电弧发生时电场强度、磁密率、电弧温度和流速的最大值和位置。然后,在串联电弧实验平台的基础上,确定起弧电压值和产生稳定电弧的临界电源电压,分析不同环路电流下电弧燃烧时间的演变、分隔间隙电弧的演变,进而总结灾害对电池的影响。最后,分析了模拟与实验电弧电压和电池表面温度的误差,以验证模型的准确性。
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
IET Energy Systems Integration
IET Energy Systems Integration Engineering-Engineering (miscellaneous)
CiteScore
5.90
自引率
8.30%
发文量
29
审稿时长
11 weeks
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