Publication detail
Spiral Structure of Cylindrical Batteries and its Importance in Modeling of Heat Transfer
HVOŽĎA, J. BOHÁČEK, J. VAKHRUSHEV, A. KARIMI-SIBAKI, E.
Original Title
Spiral Structure of Cylindrical Batteries and its Importance in Modeling of Heat Transfer
Type
abstract
Language
English
Original Abstract
This study investigates the importance of considering the well-known spiral structure of cylindrical batteries in numerical models of heat transfer within the battery. Such models typically simplify the internal geometry by a concentric layout with electrodes and separators. This results in an effective orthotropic thermal conductivity with radial, tangential and axial components defined in a local cylindrical coordinate system. However, the actual spiral structure suggests radius-dependent thermal conductivity. Herein, several thermal simulations were performed, and thermal fields were compared with the commonly used cylindrical orthotropy and the more realistic spiral. The results show that the spiral does indeed have a negligible effect on the overall temperature distribution when realistically dense spirals are assumed, confirming the common assumption employed in the literature. Interestingly, none of the previous studies provide proof of the above assumption. Therefore, this paper can serve this purpose.
Keywords
battery thermal management systems; Li-Ion cylindrical batteries; orthotropic thermal conductivity; spiral structure
Authors
HVOŽĎA, J.; BOHÁČEK, J.; VAKHRUSHEV, A.; KARIMI-SIBAKI, E.
Released
21. 11. 2024
Publisher
INTERNATIONAL ASET
ISBN
978-1-990800-48-1
Book
Proceedings of the 5th International Conference on Fluid Flow and Thermal Science (ICFFTS 2024)
ISBN
2563-5301
Periodical
Proceedings of the 5th International Conference on Fluid Flow and Thermal Science (ICFFTS 2024)
State
Canada
Pages from
170-1
Pages to
170-1
Pages count
1
URL