Compensating Foil for Thermal Management: Achieving Uniform Surface Temperature

Compensating Foil for Thermal Management: Achieving Uniform Surface Temperature

Abstract

This study presents a novel approach to improving temperature uniformity in battery thermal management systems using a compensating foil. Designed to vary thermal resistance at the interface between a planar battery and a coolant channel, the foil minimizes surface temperature differences without increasing system thickness. Two-dimensional simulations coupled with optimization identify the optimal spatial distribution of thermal conductivity. The results demonstrate the foil’s potential for enhancing thermal uniformity in batteries and other electronic systems.

This study presents a novel approach to improving temperature uniformity in battery thermal management systems using a compensating foil. Designed to vary thermal resistance at the interface between a planar battery and a coolant channel, the foil minimizes surface temperature differences without increasing system thickness. Two-dimensional simulations coupled with optimization identify the optimal spatial distribution of thermal conductivity. The results demonstrate the foil’s potential for enhancing thermal uniformity in batteries and other electronic systems.

Battery thermal management; CFD; Optimization; Temperature uniformity

Battery thermal management; CFD; Optimization; Temperature uniformity

HVOŽĎA, J.; BOHÁČEK, J.; VAKHRUSHEV, A.; KARIMI-SIBAKI, E.

21.09.2025

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