Numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels

In this work, different types of geometrical heat cooling channel are designed for numerical analysis on liquid cooling system for lithium-ion battery module. There are three types of geometrical heat cooling channel which are cylindrical, triangular and square shape. The cross-sectional area for al...

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Main Author: Mohammad Aiman Bin Ahmad Rozaman
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Published: 2023
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spelling my.uniten.dspace-215812023-05-04T17:15:14Z Numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels Mohammad Aiman Bin Ahmad Rozaman lithium-ion battery Heat cooling channel Battery module In this work, different types of geometrical heat cooling channel are designed for numerical analysis on liquid cooling system for lithium-ion battery module. There are three types of geometrical heat cooling channel which are cylindrical, triangular and square shape. The cross-sectional area for all the geometrical heat cooling channel is the same so that the comparison of the performance can be made. There are two battery modules that are chosen which are aluminum block and stainless-steel block in order to investigate the block thermal performance between the two battery modules. The battery module is made to fit 10 lithium-ion batteries of the same size. The cooling system depends on the geometrical heat cooling channel and the effectiveness of aluminum and stainless steel and the result will determine which geometrical and block that can provide the best thermal management. Water is used as the substance that flows inside the flow channels. The contact surface for the battery module is the same for both block and same goes to velocity that flows in heat cooling channel in order to achieve the best cooling performance. From the results, the circular shape geometric flow channels provide the best heat distribution for the thermal performance because of the equally rounded shape which make it easy for the heat to reach the center of the flow channel for heat transfer to occur evenly. And aluminum has better thermal conductivity for the thermal management. 2023-05-03T17:19:46Z 2023-05-03T17:19:46Z 2020-02 https://irepository.uniten.edu.my/handle/123456789/21581 application/pdf
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic lithium-ion battery
Heat cooling channel
Battery module
spellingShingle lithium-ion battery
Heat cooling channel
Battery module
Mohammad Aiman Bin Ahmad Rozaman
Numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels
description In this work, different types of geometrical heat cooling channel are designed for numerical analysis on liquid cooling system for lithium-ion battery module. There are three types of geometrical heat cooling channel which are cylindrical, triangular and square shape. The cross-sectional area for all the geometrical heat cooling channel is the same so that the comparison of the performance can be made. There are two battery modules that are chosen which are aluminum block and stainless-steel block in order to investigate the block thermal performance between the two battery modules. The battery module is made to fit 10 lithium-ion batteries of the same size. The cooling system depends on the geometrical heat cooling channel and the effectiveness of aluminum and stainless steel and the result will determine which geometrical and block that can provide the best thermal management. Water is used as the substance that flows inside the flow channels. The contact surface for the battery module is the same for both block and same goes to velocity that flows in heat cooling channel in order to achieve the best cooling performance. From the results, the circular shape geometric flow channels provide the best heat distribution for the thermal performance because of the equally rounded shape which make it easy for the heat to reach the center of the flow channel for heat transfer to occur evenly. And aluminum has better thermal conductivity for the thermal management.
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author Mohammad Aiman Bin Ahmad Rozaman
author_facet Mohammad Aiman Bin Ahmad Rozaman
author_sort Mohammad Aiman Bin Ahmad Rozaman
title Numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels
title_short Numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels
title_full Numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels
title_fullStr Numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels
title_full_unstemmed Numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels
title_sort numerical analysis on liquid cooling system for lithium - ion battery module with different geometric flow channels
publishDate 2023
_version_ 1806425697687699456
score 13.222552