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Unveiling the interaction of reactions and phase transition during thermal abuse of Li-ion batteries

Florian Baakes, M. Lüthe, Michail Gerasimov, Vincent Laue, Fridolin Röder, Perla B. Balbuena, Ulrike Krewer

2022Journal of Power Sources54 citationsDOIOpen Access PDF

Abstract

Safety considerations have always accompanied the development of new battery chemistries; this holds especially for the Li-ion battery with its highly reactive components. An overall assessment and decrease of risks of catastrophic failures such as during thermal runaway, requires an in-depth and quantitative understanding of the ongoing processes and their interaction. This can be provided by predictive mathematical models. Thus, we developed a thermal runaway model that focuses on rigorous modelling of thermodynamic properties and reactions of each component within a Li-ion battery. Moreover, the presented model considers vapour–liquid equilibria of a binary solvent mixture for the first time. Simulations show a fragile equilibrium between endothermic and exothermic reactions, such as LiPF6 and LEDC decomposition, in the early phases of self-heating. Further, an autocatalytic cycle involving the production of HF and the SEI component Li2CO3 could be revealed. Additionally, the unpredictability of the thermal runaway could be directly correlated to availability of LEDC or contaminants such as water. Also, solvent boiling can have a significant influence on the self-heating phase of a Li-ion battery, due to its endothermic nature. Further analysis revealed that the rising pressure, stemming from gassing reactions, can suppress solvent boiling until the thermal runaway occurs.

Topics & Concepts

Thermal runawayExothermic reactionEndothermic processChemistryBattery (electricity)ThermodynamicsBoilingBoiling pointPhysical chemistryOrganic chemistryAdsorptionPhysicsPower (physics)Advanced Battery Technologies ResearchAdvanced Battery Materials and TechnologiesAdvancements in Battery Materials
Unveiling the interaction of reactions and phase transition during thermal abuse of Li-ion batteries | Litcius