Wall independency and effect of initial shear-layer thickness in separated flow and heat transfer /

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Bibliographic Details
Main Authors: 313450 Win, Aung, Baron, Amichai, Fu-Kang, Tsou
Format:
Language:eng
Subjects:
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author 313450 Win, Aung
Baron, Amichai
Fu-Kang, Tsou
author_facet 313450 Win, Aung
Baron, Amichai
Fu-Kang, Tsou
author_sort 313450 Win, Aung
collection OCEAN
description 40
first_indexed 2024-03-05T05:36:20Z
format
id KOHA-OAI-TEST:342234
institution Universiti Teknologi Malaysia - OCEAN
language eng
last_indexed 2024-03-05T05:36:20Z
record_format dspace
spelling KOHA-OAI-TEST:3422342020-12-19T17:11:38ZWall independency and effect of initial shear-layer thickness in separated flow and heat transfer / 313450 Win, Aung Baron, Amichai Fu-Kang, Tsou eng40PSZJBLHeatHeat
spellingShingle Heat
Heat
313450 Win, Aung
Baron, Amichai
Fu-Kang, Tsou
Wall independency and effect of initial shear-layer thickness in separated flow and heat transfer /
title Wall independency and effect of initial shear-layer thickness in separated flow and heat transfer /
title_full Wall independency and effect of initial shear-layer thickness in separated flow and heat transfer /
title_fullStr Wall independency and effect of initial shear-layer thickness in separated flow and heat transfer /
title_full_unstemmed Wall independency and effect of initial shear-layer thickness in separated flow and heat transfer /
title_short Wall independency and effect of initial shear-layer thickness in separated flow and heat transfer /
title_sort wall independency and effect of initial shear layer thickness in separated flow and heat transfer
topic Heat
Heat
work_keys_str_mv AT 313450winaung wallindependencyandeffectofinitialshearlayerthicknessinseparatedflowandheattransfer
AT baronamichai wallindependencyandeffectofinitialshearlayerthicknessinseparatedflowandheattransfer
AT fukangtsou wallindependencyandeffectofinitialshearlayerthicknessinseparatedflowandheattransfer