Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds Number

Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds Number

ABSTRACT: Two-dimensional flows over harmonically oscillating symmetrical aerofoil at reduced frequency of 0.1 were investigated for a Reynolds number of 135,000, with focus on the unsteady aerodynamic forces, pressure and vortex dynamics at post-stall angles of attack. Numerical simulations using ANSYS® FLUENT CFD solver, validated by wind tunnel experiment, were performed to study the method of sliding mesh employed to control the wing oscillation. The transport of flow was solved using incompressible, unsteady Reynolds-Averaged Navier-Stokes equations. The 2-equation k-ε realizable turbulence model was used as turbulence closure. At large angle of attack, complex flows structure developed on the upper surface of the aerofoil induced vortex shedding from the activity of separated flows and interaction of the leading edge vortex with the trailing edge one. This interaction at some stage promotes the generation of lift force and delays the static stall. In this investigation, it was found that the sliding mesh method combined with the k-ε realizable turbulence model provides better aerodynamic loads predictions compared to the methods reported in literature.

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Main Authors: Rahman,Aiman Hakim Abdul, Mohd,Nik Ahmad Ridhwan Nik, Lazim,Tholudin Mat, Mansor,Shuhaimi
Format: Digital revista
Language:English
Published: Departamento de Ciência e Tecnologia Aeroespacial 2017
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S2175-91462017000100083
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spelling oai:scielo:S2175-914620170001000832017-03-24Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds NumberRahman,Aiman Hakim AbdulMohd,Nik Ahmad Ridhwan NikLazim,Tholudin MatMansor,Shuhaimi Aerofoil Unsteady Low Reynolds number Harmonic oscillation Post-stall Computational fluid dynamics ABSTRACT: Two-dimensional flows over harmonically oscillating symmetrical aerofoil at reduced frequency of 0.1 were investigated for a Reynolds number of 135,000, with focus on the unsteady aerodynamic forces, pressure and vortex dynamics at post-stall angles of attack. Numerical simulations using ANSYS® FLUENT CFD solver, validated by wind tunnel experiment, were performed to study the method of sliding mesh employed to control the wing oscillation. The transport of flow was solved using incompressible, unsteady Reynolds-Averaged Navier-Stokes equations. The 2-equation k-ε realizable turbulence model was used as turbulence closure. At large angle of attack, complex flows structure developed on the upper surface of the aerofoil induced vortex shedding from the activity of separated flows and interaction of the leading edge vortex with the trailing edge one. This interaction at some stage promotes the generation of lift force and delays the static stall. In this investigation, it was found that the sliding mesh method combined with the k-ε realizable turbulence model provides better aerodynamic loads predictions compared to the methods reported in literature.info:eu-repo/semantics/openAccessDepartamento de Ciência e Tecnologia AeroespacialJournal of Aerospace Technology and Management v.9 n.1 20172017-03-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S2175-91462017000100083en10.5028/jatm.v9i1.610
institution SCIELO
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country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Rahman,Aiman Hakim Abdul
Mohd,Nik Ahmad Ridhwan Nik
Lazim,Tholudin Mat
Mansor,Shuhaimi
spellingShingle Rahman,Aiman Hakim Abdul
Mohd,Nik Ahmad Ridhwan Nik
Lazim,Tholudin Mat
Mansor,Shuhaimi
Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds Number
author_facet Rahman,Aiman Hakim Abdul
Mohd,Nik Ahmad Ridhwan Nik
Lazim,Tholudin Mat
Mansor,Shuhaimi
author_sort Rahman,Aiman Hakim Abdul
title Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds Number
title_short Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds Number
title_full Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds Number
title_fullStr Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds Number
title_full_unstemmed Aerodynamics of Harmonically Oscillating Aerofoil at Low Reynolds Number
title_sort aerodynamics of harmonically oscillating aerofoil at low reynolds number
description ABSTRACT: Two-dimensional flows over harmonically oscillating symmetrical aerofoil at reduced frequency of 0.1 were investigated for a Reynolds number of 135,000, with focus on the unsteady aerodynamic forces, pressure and vortex dynamics at post-stall angles of attack. Numerical simulations using ANSYS® FLUENT CFD solver, validated by wind tunnel experiment, were performed to study the method of sliding mesh employed to control the wing oscillation. The transport of flow was solved using incompressible, unsteady Reynolds-Averaged Navier-Stokes equations. The 2-equation k-ε realizable turbulence model was used as turbulence closure. At large angle of attack, complex flows structure developed on the upper surface of the aerofoil induced vortex shedding from the activity of separated flows and interaction of the leading edge vortex with the trailing edge one. This interaction at some stage promotes the generation of lift force and delays the static stall. In this investigation, it was found that the sliding mesh method combined with the k-ε realizable turbulence model provides better aerodynamic loads predictions compared to the methods reported in literature.
publisher Departamento de Ciência e Tecnologia Aeroespacial
publishDate 2017
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S2175-91462017000100083
work_keys_str_mv AT rahmanaimanhakimabdul aerodynamicsofharmonicallyoscillatingaerofoilatlowreynoldsnumber
AT mohdnikahmadridhwannik aerodynamicsofharmonicallyoscillatingaerofoilatlowreynoldsnumber
AT lazimtholudinmat aerodynamicsofharmonicallyoscillatingaerofoilatlowreynoldsnumber
AT mansorshuhaimi aerodynamicsofharmonicallyoscillatingaerofoilatlowreynoldsnumber
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