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Dynamics of Intra‐Cell Thermal Front Propagation in Lithium‐Ion Battery Safety Issues

Yikai Jia, Peng Zhao, Donal P. Finegan, Jun Xu

2024Advanced Energy Materials20 citationsDOIOpen Access PDF

Abstract

Abstract Thermal runaway (TR), a critical failure mode in lithium‐ion batteries (LIBs), poses significant safety risks and hinders wider application of LIBs. TR typically begins at a localized heat source and spreads across the cell. Understanding thermal front propagation (TFP) characteristics, such as front and velocity, is crucial for assessing energy release and temperature distribution for battery hazardous estimation. Recent studies assume that TR within cells propagates at a near‐constant velocity, based on the reaction kinetics and thermal properties. Here, an intra‐battery TR model is further proposed and it indicates that TFP velocity stabilizes when the front is distanced from the heat source. Theoretical estimates for propagation velocity and front are developed and validated through numerical simulations and experimental tests from the NREL Battery Failure Databank. The energy release rate during TFP and the impact of preheating based on a point heat source are explored. This work clarifies the long‐standing clouds of the thermal font propagation behaviors within the single cell, highlights the power and beauty of mathematics modeling to describe the complicated thermal behaviors, and provides important guidelines for thermal hazardous understanding for next‐generation batteries.

Topics & Concepts

Thermal runawayBattery (electricity)ThermalMaterials scienceFront (military)Work (physics)Lithium (medication)Front velocityMechanicsThermal velocityNuclear engineeringHeat generationPower (physics)Mechanical engineeringThermodynamicsPhysicsEngineeringFlow velocityMedicineEndocrinologyFlow (mathematics)Advanced Battery Technologies ResearchAdvancements in Battery MaterialsAdvanced Battery Materials and Technologies
Dynamics of Intra‐Cell Thermal Front Propagation in Lithium‐Ion Battery Safety Issues | Litcius