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Computational analysis of fluid immersed active cooling for battery thermal management using thermal lattice Boltzmann method

A computational analysis of the thermal management system of a battery-pack, whereby the cells are actively cooled at their surfaces by being immersed in a nanofluid medium. Nanofluids used in the automotive and energy management systems are selected and modelled within this work. The present study...

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Published in:The European physical journal. ST, Special topics Special topics, 2022-09, Vol.231 (13-14), p.2865-2877
Main Authors: Joe, Erin Sam, Arumuga Perumal, D.
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description A computational analysis of the thermal management system of a battery-pack, whereby the cells are actively cooled at their surfaces by being immersed in a nanofluid medium. Nanofluids used in the automotive and energy management systems are selected and modelled within this work. The present study is conducted by carefully observing the flow structures, thermal energy distribution, entropy generation and pumping power requirements within the battery-pack, to be able to present a resource helpful for designers in the preliminary stages of their thermal management system. This study throws light beyond the case of the battery-pack thermal management, to other applications that require to be maintained at a given temperature or require a certain quantity of heat to be removed from it.
doi_str_mv 10.1140/epjs/s11734-022-00605-7
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source Springer Nature
subjects Atomic
Classical and Continuum Physics
Condensed Matter Physics
Energy distribution
Energy management systems
Materials Science
Measurement Science and Instrumentation
Molecular
Nanofluids
Optical and Plasma Physics
Physics
Physics and Astronomy
Regular Article
S.I. : Transport Phenomena of Nanofluids in Cavities: Current Trends and Applications
Thermal energy
Thermal management
title Computational analysis of fluid immersed active cooling for battery thermal management using thermal lattice Boltzmann method
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