Reduced Modeling of LiIon Battery Thermal Abuse

Reduced Modeling of LiIon Battery Thermal Abuse

Paper in proceedings outside WoS and Scopus

Thermal abuse in lithium-ion (Li-ion) batteries represents a major safety concern across a wide range of applications, from portable devices to electric mobility systems. This study reviews the fundamental thermal mechanisms that can lead to hazardous conditions and examines advanced physical modeling techniques used to capture these phenomena. Special attention is given to reduced-order modeling (ROM), which offers a balance between computational efficiency and predictive accuracy. A practical case study is used to compare modeling approaches, and the relevance of these methods for battery pack design and thermal safety diagnostics is discussed.

Thermal abuse in lithium-ion (Li-ion) batteries represents a major safety concern across a wide range of applications, from portable devices to electric mobility systems. This study reviews the fundamental thermal mechanisms that can lead to hazardous conditions and examines advanced physical modeling techniques used to capture these phenomena. Special attention is given to reduced-order modeling (ROM), which offers a balance between computational efficiency and predictive accuracy. A practical case study is used to compare modeling approaches, and the relevance of these methods for battery pack design and thermal safety diagnostics is discussed.

Thermal Abuse, model, Li-Ion, Runaway

Thermal Abuse, model, Li-Ion, Runaway

VYROUBAL, P.; SEDLAŘÍK, M.; MAČÁK, M.; ŠEDINA, M.; KAZDA, T.

28.08.2025

Brno University of Technology Faculty of Electrical Engineering and Communication Department of Electrical and Electronic Technology

Brno

978-80-214-6356-1

137

139

3

2025-ABAF-Proceeding
Reduced Modeling of LiIon Battery Thermal Abuse