On the unsteady motion and stability of a heaving airfoil in ground effect
On the unsteady motion and stability of a heaving airfoil in ground effect
This study explores the fluid mechanics and force generation capabilities of an inverted heaving airfoil placed close to a moving ground using a URANS solver with the Spalart-Allmaras turbulence model. By varying the mean ground clearance and motion frequency of the airfoil, it was possible to construct a frequency-height diagram of the various forces acting on the airfoil. The ground was found to enhance the downforce and reduce the drag with respect to freestream. The unsteady motion induces hysteresis in the forces’ behaviour. At moderate ground clearance, the hysteresis increases with frequency and the airfoil loses energy to the flow, resulting in a stabilizingmotion. By analogy with a pitching motion, the airfoil stalls in close proximity to the ground. At low frequencies, the motion is unstable and could lead to stall flutter. A stall flutter analysis was undertaken. At higher frequencies, inviscid effects overcome the large separation and the motion becomes stable. Forced trailing edge vortex shedding appears at high frequencies. The shedding mechanism seems to be independent of ground proximity. However, the wake is altered at low heights as a result of an interaction between the vortices and the ground.
oscillating airfoil, flutter, wing in ground effect, vortex shedding
164-178
Molina, Juan
ffa48c47-d1f3-4703-9af6-6a1c4a20fa0e
Zhang, Xin
3056a795-80f7-4bbd-9c75-ecbc93085421
Angland, David
b86880c6-31fa-452b-ada8-4bbd83cda47f
April 2011
Molina, Juan
ffa48c47-d1f3-4703-9af6-6a1c4a20fa0e
Zhang, Xin
3056a795-80f7-4bbd-9c75-ecbc93085421
Angland, David
b86880c6-31fa-452b-ada8-4bbd83cda47f
Molina, Juan, Zhang, Xin and Angland, David
(2011)
On the unsteady motion and stability of a heaving airfoil in ground effect.
Acta Mechanica Sinica, 27 (2), .
(doi:10.1007/s10409-011-0445-9).
Abstract
This study explores the fluid mechanics and force generation capabilities of an inverted heaving airfoil placed close to a moving ground using a URANS solver with the Spalart-Allmaras turbulence model. By varying the mean ground clearance and motion frequency of the airfoil, it was possible to construct a frequency-height diagram of the various forces acting on the airfoil. The ground was found to enhance the downforce and reduce the drag with respect to freestream. The unsteady motion induces hysteresis in the forces’ behaviour. At moderate ground clearance, the hysteresis increases with frequency and the airfoil loses energy to the flow, resulting in a stabilizingmotion. By analogy with a pitching motion, the airfoil stalls in close proximity to the ground. At low frequencies, the motion is unstable and could lead to stall flutter. A stall flutter analysis was undertaken. At higher frequencies, inviscid effects overcome the large separation and the motion becomes stable. Forced trailing edge vortex shedding appears at high frequencies. The shedding mechanism seems to be independent of ground proximity. However, the wake is altered at low heights as a result of an interaction between the vortices and the ground.
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Published date: April 2011
Keywords:
oscillating airfoil, flutter, wing in ground effect, vortex shedding
Organisations:
Aerodynamics & Flight Mechanics
Identifiers
Local EPrints ID: 185869
URI: http://eprints.soton.ac.uk/id/eprint/185869
ISSN: 0567-7718
PURE UUID: 6932a374-cf12-48f2-be75-b51175e5cfa2
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Date deposited: 11 May 2011 11:02
Last modified: 14 Mar 2024 03:15
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Contributors
Author:
Juan Molina
Author:
Xin Zhang
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