Numerical Heat Transfer Investigation of Straight Cooling Fin Arrangement In In-Wheel Electric Motor Housing

In-wheel electric motor is a latest and advance technology, where the motor is integrated within the wheels to drive the vehicle. It eliminates the need for the conventional engine, transmission differential and other power train components. Instead of several advantages offered by the in-wheel elec...

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Main Authors: M. Sabri Sidik, N. Afiq Azidin, M. Rezal, Faiza M. Nasir, M. K. Abdullah, UniKL MSI
Format: Article
Language:English
Published: 2014
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Online Access:http://localhost/xmlui/handle/123456789/8980
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spelling my.unikl.ir-89802014-12-11T04:56:41Z Numerical Heat Transfer Investigation of Straight Cooling Fin Arrangement In In-Wheel Electric Motor Housing M. Sabri Sidik, N. Afiq Azidin M. Rezal, Faiza M. Nasir M. K. Abdullah, UniKL MSI Straight fin In-wheel electric motor Heat transfer analysis Maximum temperature Total heat transfer In-wheel electric motor is a latest and advance technology, where the motor is integrated within the wheels to drive the vehicle. It eliminates the need for the conventional engine, transmission differential and other power train components. Instead of several advantages offered by the in-wheel electric motor, it produces a lot of heat during its operation, where it downgrades the performance. Therefore, cooling of the electric motor is highly required to keep the electric motor operation in best possible level. Integrating fin into the motor housing is an option of the cooling techniques offered. Nevertheless, fin design on the motor housing need to be studied in order to ensure effective thermal management, optimum output power, reliable and safe operation to the user. In this paper, the effect of fin height, width and spacing of straight cooling fin arrangement has been investigated for the optimum heat transfer. The fin has been modeled in CATIA, while computational fluid dynamic tool namely ANSYS FLUENT 14 is used to predict the performance on its heat transfer. It is found that the best performance of the fin is referred to the straight fin arrangement with 2.6 mm in height, 3.75 mm in width and spacing between fins of 6.5 mm. It significantly reduces the temperature, while keeping up the heat transfer as much as 49.4% and 264%, respectively compared to the model without considering fin design. 2014-12-11T04:56:41Z 2014-12-11T04:56:41Z 2014-12-11 Article http://localhost/xmlui/handle/123456789/8980 en
institution Universiti Kuala Lumpur
building UniKL Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Kuala Lumpur
content_source UniKL Institutional Repository
url_provider http://ir.unikl.edu.my/
language English
topic Straight fin
In-wheel electric motor
Heat transfer analysis
Maximum temperature
Total heat transfer
spellingShingle Straight fin
In-wheel electric motor
Heat transfer analysis
Maximum temperature
Total heat transfer
M. Sabri Sidik, N. Afiq Azidin
M. Rezal, Faiza M. Nasir
M. K. Abdullah, UniKL MSI
Numerical Heat Transfer Investigation of Straight Cooling Fin Arrangement In In-Wheel Electric Motor Housing
description In-wheel electric motor is a latest and advance technology, where the motor is integrated within the wheels to drive the vehicle. It eliminates the need for the conventional engine, transmission differential and other power train components. Instead of several advantages offered by the in-wheel electric motor, it produces a lot of heat during its operation, where it downgrades the performance. Therefore, cooling of the electric motor is highly required to keep the electric motor operation in best possible level. Integrating fin into the motor housing is an option of the cooling techniques offered. Nevertheless, fin design on the motor housing need to be studied in order to ensure effective thermal management, optimum output power, reliable and safe operation to the user. In this paper, the effect of fin height, width and spacing of straight cooling fin arrangement has been investigated for the optimum heat transfer. The fin has been modeled in CATIA, while computational fluid dynamic tool namely ANSYS FLUENT 14 is used to predict the performance on its heat transfer. It is found that the best performance of the fin is referred to the straight fin arrangement with 2.6 mm in height, 3.75 mm in width and spacing between fins of 6.5 mm. It significantly reduces the temperature, while keeping up the heat transfer as much as 49.4% and 264%, respectively compared to the model without considering fin design.
format Article
author M. Sabri Sidik, N. Afiq Azidin
M. Rezal, Faiza M. Nasir
M. K. Abdullah, UniKL MSI
author_facet M. Sabri Sidik, N. Afiq Azidin
M. Rezal, Faiza M. Nasir
M. K. Abdullah, UniKL MSI
author_sort M. Sabri Sidik, N. Afiq Azidin
title Numerical Heat Transfer Investigation of Straight Cooling Fin Arrangement In In-Wheel Electric Motor Housing
title_short Numerical Heat Transfer Investigation of Straight Cooling Fin Arrangement In In-Wheel Electric Motor Housing
title_full Numerical Heat Transfer Investigation of Straight Cooling Fin Arrangement In In-Wheel Electric Motor Housing
title_fullStr Numerical Heat Transfer Investigation of Straight Cooling Fin Arrangement In In-Wheel Electric Motor Housing
title_full_unstemmed Numerical Heat Transfer Investigation of Straight Cooling Fin Arrangement In In-Wheel Electric Motor Housing
title_sort numerical heat transfer investigation of straight cooling fin arrangement in in-wheel electric motor housing
publishDate 2014
url http://localhost/xmlui/handle/123456789/8980
_version_ 1644485029066178560
score 13.214268