On the effects of anisotropic turbulence on leading edge noise
On the effects of anisotropic turbulence on leading edge noise
This paper presents an investigation on the broadband noise produced by the interaction of anisotropic turbulence with isolated aerofoils. Computational aeroacoustic simulations are performed using a synthetic turbulence method with a linearised Euler solver. A comprehensive and fundamental parameter study on leading edge noise is presented to assess the effects of aerofoil thickness, mean flow Mach number, and angle of attack in the presence of moderately anisotropic turbulence. To this end, the streamwise-to-transverse length scale ratio is varied from 0.33 to 3, which can be representative of the anisotropy in the fan wakes from aero-engines, grid-generated turbulence in open-jet wind tunnel experiments, and rotors ingesting turbulent boundary layers. Anisotropic turbulence presents a significant redistribution of the energy in the turbulence spectra in comparison with an isotropic baseline, which affects the resulting noise spectra. It has been found that the noise spectra are mainly influenced by the transverse velocity component for the examined anisotropic flows. The frequency at which the noise spectrum is at a maximum only relies on the mean flow speed and the axial length scale of the anisotropic turbulent flow. Noise reduction due to aerofoil thickness at high frequencies follows a linear trend, but the amount of noise reduction is sensitive to the anisotropy in the flow. It is shown that the contribution of the streamwise disturbances and length scale become increasingly important for thick aerofoils at high Mach numbers and for aerofoils at non-zero angle of attack.
Gea Aguilera, Fernando
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Karve, Ravish
e42d4414-7a27-451a-9ab4-5a0b33627469
Gill, James R.
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Zhang, Xin
8aeec26a-4702-4089-ba59-fdf0ca425c74
Angland, David
b86880c6-31fa-452b-ada8-4bbd83cda47f
17 March 2021
Gea Aguilera, Fernando
411c23d8-6c42-4e7f-855c-dcfddab9043a
Karve, Ravish
e42d4414-7a27-451a-9ab4-5a0b33627469
Gill, James R.
f85442ba-fd59-4f3a-a12c-d93b301718f0
Zhang, Xin
8aeec26a-4702-4089-ba59-fdf0ca425c74
Angland, David
b86880c6-31fa-452b-ada8-4bbd83cda47f
Gea Aguilera, Fernando, Karve, Ravish, Gill, James R., Zhang, Xin and Angland, David
(2021)
On the effects of anisotropic turbulence on leading edge noise.
Journal of Sound and Vibration, 495, [115895].
(doi:10.1016/j.jsv.2020.115895).
Abstract
This paper presents an investigation on the broadband noise produced by the interaction of anisotropic turbulence with isolated aerofoils. Computational aeroacoustic simulations are performed using a synthetic turbulence method with a linearised Euler solver. A comprehensive and fundamental parameter study on leading edge noise is presented to assess the effects of aerofoil thickness, mean flow Mach number, and angle of attack in the presence of moderately anisotropic turbulence. To this end, the streamwise-to-transverse length scale ratio is varied from 0.33 to 3, which can be representative of the anisotropy in the fan wakes from aero-engines, grid-generated turbulence in open-jet wind tunnel experiments, and rotors ingesting turbulent boundary layers. Anisotropic turbulence presents a significant redistribution of the energy in the turbulence spectra in comparison with an isotropic baseline, which affects the resulting noise spectra. It has been found that the noise spectra are mainly influenced by the transverse velocity component for the examined anisotropic flows. The frequency at which the noise spectrum is at a maximum only relies on the mean flow speed and the axial length scale of the anisotropic turbulent flow. Noise reduction due to aerofoil thickness at high frequencies follows a linear trend, but the amount of noise reduction is sensitive to the anisotropy in the flow. It is shown that the contribution of the streamwise disturbances and length scale become increasingly important for thick aerofoils at high Mach numbers and for aerofoils at non-zero angle of attack.
Text
On the Effects of Anisotropic Turbulence on Leading Edge Noise
- Accepted Manuscript
More information
Accepted/In Press date: 1 December 2020
e-pub ahead of print date: 4 December 2020
Published date: 17 March 2021
Identifiers
Local EPrints ID: 510265
URI: http://eprints.soton.ac.uk/id/eprint/510265
ISSN: 0022-460X
PURE UUID: 4bd9dd8f-7c4c-4f6e-b774-a81bb9da28d1
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Date deposited: 24 Mar 2026 17:52
Last modified: 25 Mar 2026 05:01
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Author:
Fernando Gea Aguilera
Author:
James R. Gill
Author:
Xin Zhang
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