Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping Motions

Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping Motions

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Numerical simulations of flow patterns at ultra-low Reynolds numbers over rigid and flexible airfoils are presented, and the influence of flexibility on main aerodynamic properties are discussed. Typical unsteady flights like heaving and flapping are, in terms of Reynolds and Strouhal numbers, reduc...

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Bibliographic Details
Main Authors: D. Antonelli, C. Sacco, J. Tamagno
Format: Article
Language:English
Published: Isfahan University of Technology 2017-01-01
Series:Journal of Applied Fluid Mechanics
Subjects:
Aerodynamic wing sections; CFD; Fluid structure interaction; Unsteady flows; Low Reynolds; Flexible airfoil; Partitioned method; Finite element method.
Online Access:http://jafmonline.net/JournalArchive/download?file_ID=42124&issue_ID=239
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spelling doaj-2bc7c1c2737e41d09bfceb1a41633f812020-11-25T00:53:46ZengIsfahan University of Technology Journal of Applied Fluid Mechanics1735-35722017-01-01102749762.Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping MotionsD. Antonelli0C. Sacco1J. Tamagno2Universidad Nacional de CordobaInstituto Universitario AeronáuticoUniveridad Nacional de CórdobaNumerical simulations of flow patterns at ultra-low Reynolds numbers over rigid and flexible airfoils are presented, and the influence of flexibility on main aerodynamic properties are discussed. Typical unsteady flights like heaving and flapping are, in terms of Reynolds and Strouhal numbers, reduced frequencies and FSI (Fluid Structure Interaction) factor, are valuated. It has been found that for some flexibility levels, the aerodynamic forces and propulsive efficiency are enhanced if compared with a rigid airfoil. The mathematical technical approach used to solve the laminar-incompressible flow equations coupled with structural algorithms, is described.http://jafmonline.net/JournalArchive/download?file_ID=42124&issue_ID=239Aerodynamic wing sections; CFD; Fluid structure interaction; Unsteady flows; Low Reynolds; Flexible airfoil; Partitioned method; Finite element method.
collection DOAJ
language English
format Article
sources DOAJ
author D. Antonelli
C. Sacco
J. Tamagno
spellingShingle D. Antonelli
C. Sacco
J. Tamagno
Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping Motions
Journal of Applied Fluid Mechanics
Aerodynamic wing sections; CFD; Fluid structure interaction; Unsteady flows; Low Reynolds; Flexible airfoil; Partitioned method; Finite element method.
author_facet D. Antonelli
C. Sacco
J. Tamagno
author_sort D. Antonelli
title Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping Motions
title_short Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping Motions
title_full Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping Motions
title_fullStr Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping Motions
title_full_unstemmed Flow Simulations with Ultra-Low Reynolds Numbers over Rigid and Flexible Airfoils Subject to Heaving and Flapping Motions
title_sort flow simulations with ultra-low reynolds numbers over rigid and flexible airfoils subject to heaving and flapping motions
publisher Isfahan University of Technology
series Journal of Applied Fluid Mechanics
issn 1735-3572
publishDate 2017-01-01
description Numerical simulations of flow patterns at ultra-low Reynolds numbers over rigid and flexible airfoils are presented, and the influence of flexibility on main aerodynamic properties are discussed. Typical unsteady flights like heaving and flapping are, in terms of Reynolds and Strouhal numbers, reduced frequencies and FSI (Fluid Structure Interaction) factor, are valuated. It has been found that for some flexibility levels, the aerodynamic forces and propulsive efficiency are enhanced if compared with a rigid airfoil. The mathematical technical approach used to solve the laminar-incompressible flow equations coupled with structural algorithms, is described.
topic Aerodynamic wing sections; CFD; Fluid structure interaction; Unsteady flows; Low Reynolds; Flexible airfoil; Partitioned method; Finite element method.
url http://jafmonline.net/JournalArchive/download?file_ID=42124&issue_ID=239
work_keys_str_mv AT dantonelli flowsimulationswithultralowreynoldsnumbersoverrigidandflexibleairfoilssubjecttoheavingandflappingmotions
AT csacco flowsimulationswithultralowreynoldsnumbersoverrigidandflexibleairfoilssubjecttoheavingandflappingmotions
AT jtamagno flowsimulationswithultralowreynoldsnumbersoverrigidandflexibleairfoilssubjecttoheavingandflappingmotions
_version_ 1725236532800913408

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