Taking a lead from the humpback whale flukes, characterized by a series of bumps that result in a sinusoidal-like leading edge, this paper reports on a three-dimensional numerical study of sinusoidal leading edges on cambered airfoil profiles. The turbulent flow around the cambered airfoil with the sinusoidal leading edge was computed at different angles of attack with the open source solver OpenFOAM, using two different eddy viscosity models integrated to the wall. The reported research focused on the effects of the modified leading edge in terms of lift-to-drag performance and the influence of camber on such parameters. For these reasons a comparison with a symmetric airfoil is provided. The research was primarily concerned with the elucidation of the fluid flow mechanisms induced by the bumps and the impact of those mechanisms on airfoil performance, on both symmetric and cambered profiles. The bumps on the leading edge influenced the aerodynamic performance of the airfoil, and the lift curves were found to feature an early recovery in post-stall for the symmetric profile with an additional gain in lift for the cambered profile. The bumps drove the fluid dynamic on the suction side of the airfoil, which in turn resulted in the capability to control the separation at the trailing edge in coincidence with the peak of the sinusoid at the leading edge.

On the Role of Leading-Edge Bumps in the Control of Stall Onset in Axial Fan Blades / Corsini, Alessandro; Delibra, Giovanni; Anthony G., Sheard. - In: JOURNAL OF FLUIDS ENGINEERING. - ISSN 0098-2202. - STAMPA. - 135:8(2013), p. 081104. [10.1115/1.4024115]

On the Role of Leading-Edge Bumps in the Control of Stall Onset in Axial Fan Blades

CORSINI, Alessandro;DELIBRA, GIOVANNI;
2013

Abstract

Taking a lead from the humpback whale flukes, characterized by a series of bumps that result in a sinusoidal-like leading edge, this paper reports on a three-dimensional numerical study of sinusoidal leading edges on cambered airfoil profiles. The turbulent flow around the cambered airfoil with the sinusoidal leading edge was computed at different angles of attack with the open source solver OpenFOAM, using two different eddy viscosity models integrated to the wall. The reported research focused on the effects of the modified leading edge in terms of lift-to-drag performance and the influence of camber on such parameters. For these reasons a comparison with a symmetric airfoil is provided. The research was primarily concerned with the elucidation of the fluid flow mechanisms induced by the bumps and the impact of those mechanisms on airfoil performance, on both symmetric and cambered profiles. The bumps on the leading edge influenced the aerodynamic performance of the airfoil, and the lift curves were found to feature an early recovery in post-stall for the symmetric profile with an additional gain in lift for the cambered profile. The bumps drove the fluid dynamic on the suction side of the airfoil, which in turn resulted in the capability to control the separation at the trailing edge in coincidence with the peak of the sinusoid at the leading edge.
2013
biomimesis; leading edge bumps; lift control; openfoam
01 Pubblicazione su rivista::01a Articolo in rivista
On the Role of Leading-Edge Bumps in the Control of Stall Onset in Axial Fan Blades / Corsini, Alessandro; Delibra, Giovanni; Anthony G., Sheard. - In: JOURNAL OF FLUIDS ENGINEERING. - ISSN 0098-2202. - STAMPA. - 135:8(2013), p. 081104. [10.1115/1.4024115]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/559972
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