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Downstream porosity for the reduction of turbulence–aerofoil interaction noise

Sergi Palleja-Cabre, Paruchuri Chaitanya, Phillip Joseph, Jae Wook Kim, Matthew J. Priddin, Lorna J. Ayton, Thomas Geyer, Tze Pei Chong

2022Journal of Sound and Vibration17 citationsDOIOpen Access PDF

Abstract

This paper is a predominantly experimental study into the use of porosity located downstream of an aerofoil leading edge for the reduction of turbulence interaction noise. Locating the porosity downstream of the leading edge has been shown to be beneficial in reducing the aerodynamic performance penalty compared with locating it directly at the leading edge (Ocker et al., 2021), where most of the lift is generated. Noise measurements on a flat plate with downstream porosity are compared against the case of two flat plates in a tandem configuration. In both cases, the noise reduction spectra exhibit peaks of strong noise reduction at non-dimensional frequencies of fld/Uc=n, where ld is the distance between the leading edge and the downstream edge, Uc is the convection velocity and n is an integer. To explain this behaviour requires a mechanism to be present in which a phase shift of 180∘ is introduced in the interaction process. In the paper we argue that the origin of this phase shift is due to secondary vorticity generated at the leading edge. Another key finding of this paper is that overall noise reductions are due to an effective shortening of the chord in which most of the radiation is produced by the section of the flat plate upstream of the porous section, leading to generally weaker radiation. Neither of these mechanisms have been reported previously in the literature. The paper concludes with noise measurements on a thin aerofoil with downstream porosity included, in which overall noise reductions of up to 2.8 dB are achieved.

Topics & Concepts

AirfoilLeading edgeNoise reductionTurbulenceNoise (video)PorosityAerodynamicsChord (peer-to-peer)MechanicsLift (data mining)PhysicsMaterials scienceAcousticsComputer scienceComposite materialImage (mathematics)Artificial intelligenceDistributed computingData miningAerodynamics and Acoustics in Jet FlowsFluid Dynamics and Turbulent FlowsWind and Air Flow Studies
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