Physical and Reduced Modeling of Liion Battery Thermal Abuse

Physical and Reduced Modeling of Liion Battery Thermal Abuse

Paper in proceedings outside WoS and Scopus

Thermal abuse in lithium-ion (Li-ion) batteries poses significant risks to safety and reliability in applications ranging from consumer electronics to electric vehicles. This paper presents a brief overview of the physical mechanisms involved in thermal abuse, explores detailed physical modeling approaches, and introduces reduced-order modeling (ROM) techniques that enable faster simulations with acceptable accuracy. A comparison is drawn through a practical example. Applications of such models in battery pack design and safety diagnostics are discussed.

Thermal abuse in lithium-ion (Li-ion) batteries poses significant risks to safety and reliability in applications ranging from consumer electronics to electric vehicles. This paper presents a brief overview of the physical mechanisms involved in thermal abuse, explores detailed physical modeling approaches, and introduces reduced-order modeling (ROM) techniques that enable faster simulations with acceptable accuracy. A comparison is drawn through a practical example. Applications of such models in battery pack design and safety diagnostics are discussed.

Thermal Abuse, Battery, Model, Reduce Order Model

Thermal Abuse, Battery, Model, Reduce Order Model

VYROUBAL, P.; KAZDA, T.; SEDLAŘÍK, M.

19.06.2025

Česká elektrotechnická společnost, ÚOS chemické zdroje elektrické energie

Hatě

978-80-02-03089-8

64

66

3

https://www.nzee.cz/download/sbornik/Sbornik_NZEE_2025.pdf