The Numeric Analysis of Tubercle Effect on Modified NACA-0015 Airfoil

In this study, the aerodynamic characteristics of the humpback whale were investigated by applying the NACA-00 15 model to the wing of the airfoil. Inspired by the maneuverability during the chase and capture of the humpback whale, NACA-0015 has placed the tubercles the same wavelength (w) and diffe...

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Published in:Journal of Polytechnic
Main Authors: ACIR, ADEM, TANÜRÜN, HİMMET ERDİ
Format: Article in Journal/Newspaper
Language:Turkish
Published: 2019
Subjects:
Humpback Whale
Online Access:https://doi.org/10.2339/politeknik.391800
https://avesis.gazi.edu.tr/publication/details/f5822642-6f16-4fe5-a6cd-be61906e4f44/oai
id ftgaziunivavesis:f5822642-6f16-4fe5-a6cd-be61906e4f44
record_format openpolar
spelling ftgaziunivavesis:f5822642-6f16-4fe5-a6cd-be61906e4f44 2023-09-26T15:18:44+02:00 The Numeric Analysis of Tubercle Effect on Modified NACA-0015 Airfoil ACIR, ADEM TANÜRÜN, HİMMET ERDİ 2019-03-01T00:00:00Z https://doi.org/10.2339/politeknik.391800 https://avesis.gazi.edu.tr/publication/details/f5822642-6f16-4fe5-a6cd-be61906e4f44/oai tur tur f5822642-6f16-4fe5-a6cd-be61906e4f44 doi:10.2339/politeknik.391800 https://avesis.gazi.edu.tr/publication/details/f5822642-6f16-4fe5-a6cd-be61906e4f44/oai info:eu-repo/semantics/openAccess info:eu-repo/semantics/article 2019 ftgaziunivavesis https://doi.org/10.2339/politeknik.391800 2023-08-27T23:27:17Z In this study, the aerodynamic characteristics of the humpback whale were investigated by applying the NACA-00 15 model to the wing of the airfoil. Inspired by the maneuverability during the chase and capture of the humpback whale, NACA-0015 has placed the tubercles the same wavelength (w) and different amplitudes (a) in the leading edge region of the wing. The three different modified wings and the baseline obtained were compared in terms of aerodynamic performance. The wavelength of the modified wings used in this study is 16% of the chord length and the values of the amplitudes were determined as 0,05%, 0, 1% and 0,15%, respectively, of the chord length. All wing structures were designed in Solidworks CAD program. These solid models were numerically analyzed with the k-epsilon realizable turbulence model in the average Navier-Stokes analysis method in ANSYS Fluent software. Wing openness ratio (aspect ratio) value 1,1 was selected. On the 7,2x 10(5) Reynolds number, analyzes were made on the wing at the attack angle between 0 degrees and 46 degrees. After the examination of the results, it's found that the baseline has a higher lift coefficient (C-L) than the modified wing before the stall. The coefficient of friction (C-D) of the 0,05a0,16w (0,05a ve 0,16w) is 12,57% lower than that of the baseline. For post-stall angle of attacks, when 0,05a0,16w wing is compared to baseline average C-L and C-D value, the wing of 0,5a0,16w has 7,86% and 9,79% higher values respectively. After stall, It has seen that the aerodynamic efficiency (C-L/C-D) of 0,05a0,16w is % 3,81 higher than the baseline. Article in Journal/Newspaper Humpback Whale Gazi University Research Information System Journal of Polytechnic
institution Open Polar
collection Gazi University Research Information System
op_collection_id ftgaziunivavesis
language Turkish
description In this study, the aerodynamic characteristics of the humpback whale were investigated by applying the NACA-00 15 model to the wing of the airfoil. Inspired by the maneuverability during the chase and capture of the humpback whale, NACA-0015 has placed the tubercles the same wavelength (w) and different amplitudes (a) in the leading edge region of the wing. The three different modified wings and the baseline obtained were compared in terms of aerodynamic performance. The wavelength of the modified wings used in this study is 16% of the chord length and the values of the amplitudes were determined as 0,05%, 0, 1% and 0,15%, respectively, of the chord length. All wing structures were designed in Solidworks CAD program. These solid models were numerically analyzed with the k-epsilon realizable turbulence model in the average Navier-Stokes analysis method in ANSYS Fluent software. Wing openness ratio (aspect ratio) value 1,1 was selected. On the 7,2x 10(5) Reynolds number, analyzes were made on the wing at the attack angle between 0 degrees and 46 degrees. After the examination of the results, it's found that the baseline has a higher lift coefficient (C-L) than the modified wing before the stall. The coefficient of friction (C-D) of the 0,05a0,16w (0,05a ve 0,16w) is 12,57% lower than that of the baseline. For post-stall angle of attacks, when 0,05a0,16w wing is compared to baseline average C-L and C-D value, the wing of 0,5a0,16w has 7,86% and 9,79% higher values respectively. After stall, It has seen that the aerodynamic efficiency (C-L/C-D) of 0,05a0,16w is % 3,81 higher than the baseline.
format Article in Journal/Newspaper
author ACIR, ADEM
TANÜRÜN, HİMMET ERDİ
spellingShingle ACIR, ADEM
TANÜRÜN, HİMMET ERDİ
The Numeric Analysis of Tubercle Effect on Modified NACA-0015 Airfoil
author_facet ACIR, ADEM
TANÜRÜN, HİMMET ERDİ
author_sort ACIR, ADEM
title The Numeric Analysis of Tubercle Effect on Modified NACA-0015 Airfoil
title_short The Numeric Analysis of Tubercle Effect on Modified NACA-0015 Airfoil
title_full The Numeric Analysis of Tubercle Effect on Modified NACA-0015 Airfoil
title_fullStr The Numeric Analysis of Tubercle Effect on Modified NACA-0015 Airfoil
title_full_unstemmed The Numeric Analysis of Tubercle Effect on Modified NACA-0015 Airfoil
title_sort numeric analysis of tubercle effect on modified naca-0015 airfoil
publishDate 2019
url https://doi.org/10.2339/politeknik.391800
https://avesis.gazi.edu.tr/publication/details/f5822642-6f16-4fe5-a6cd-be61906e4f44/oai
genre Humpback Whale
genre_facet Humpback Whale
op_relation f5822642-6f16-4fe5-a6cd-be61906e4f44
doi:10.2339/politeknik.391800
https://avesis.gazi.edu.tr/publication/details/f5822642-6f16-4fe5-a6cd-be61906e4f44/oai
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.2339/politeknik.391800
container_title Journal of Polytechnic
_version_ 1778141346865872896

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