Dataset for Slitted leading edge profiles for the reduction of turbulence-aerofoil interaction noise
Dataset for Slitted leading edge profiles for the reduction of turbulence-aerofoil interaction noise
Aerofoils operating in a turbulent flow are an efficient source of noise radiation by scattering vorticity into sound at the leading edge. Much work has now been undertaken demonstrating the effectiveness by which serrations, or undulations, introduced onto the leading edge can substantially reduce broadband leading edge interaction noise. However, all of this work is focused on sinusoidal leading edge serration profiles. In this paper, an alternative profile is proposed that is capable of providing significantly greater noise reductions than the maximum noise reductions that can be achieved by single-wavelength serrations of the same peak-to-root amplitude. In its most general realization, the leading edge serration profiles simply comprise a sawtooth or single wavelength serration, for which every root has a single narrow slit. This simple geometry, upon interaction with a turbulent flow, produces compact source regions at either ends of the slit, which then destructively interfere, leading to considerably less efficient noise radiation than conventional single-wavelength geometries. The paper will demonstrate experimentally that even slits by themselves can provide greater levels of noise reduction than conventional profiles of the same peak-to-root amplitude.
University of Southampton
Paruchuri, Chaitanya
5c1def64-6347-4be3-ac2d-b9f6a314b81d
Joseph, Phillip
9c30491e-8464-4c9a-8723-2abc62bdf75d
Paruchuri, Chaitanya
5c1def64-6347-4be3-ac2d-b9f6a314b81d
Joseph, Phillip
9c30491e-8464-4c9a-8723-2abc62bdf75d
Paruchuri, Chaitanya and Joseph, Phillip
(2018)
Dataset for Slitted leading edge profiles for the reduction of turbulence-aerofoil interaction noise.
University of Southampton
doi:10.5258/SOTON/D0548
[Dataset]
Abstract
Aerofoils operating in a turbulent flow are an efficient source of noise radiation by scattering vorticity into sound at the leading edge. Much work has now been undertaken demonstrating the effectiveness by which serrations, or undulations, introduced onto the leading edge can substantially reduce broadband leading edge interaction noise. However, all of this work is focused on sinusoidal leading edge serration profiles. In this paper, an alternative profile is proposed that is capable of providing significantly greater noise reductions than the maximum noise reductions that can be achieved by single-wavelength serrations of the same peak-to-root amplitude. In its most general realization, the leading edge serration profiles simply comprise a sawtooth or single wavelength serration, for which every root has a single narrow slit. This simple geometry, upon interaction with a turbulent flow, produces compact source regions at either ends of the slit, which then destructively interfere, leading to considerably less efficient noise radiation than conventional single-wavelength geometries. The paper will demonstrate experimentally that even slits by themselves can provide greater levels of noise reduction than conventional profiles of the same peak-to-root amplitude.
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Published date: 4 June 2018
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Acoustics Group
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Local EPrints ID: 421404
URI: http://eprints.soton.ac.uk/id/eprint/421404
PURE UUID: e36e515a-579a-4307-b6e9-b5031c1a2fda
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Date deposited: 08 Jun 2018 16:32
Last modified: 11 Nov 2023 06:25
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