Reduction of aerodynamic noise from square bars by introducing spanwise waviness
Reduction of aerodynamic noise from square bars by introducing spanwise waviness
This paper presents an investigation, using both numerical and experimental methods, of the application of spanwise waviness to reduce aerodynamic noise from square bars. The numerical simulations are performed using the Delayed Detached-Eddy Simulation approach to obtain the near-field unsteady flow properties, which are then used to calculate the equivalent source terms in the Ffowcs Williams-Hawkings equation for far-field noise prediction. For a straight square bar in cross-flow, which produces strong tonal noise associated with the vortex shedding, a benchmark study showed good agreement between numerical simulations and measurements in terms of far-field noise spectra. Waviness is then introduced along the bar span and the influence of the amplitude and wavelength of the waviness is studied. When the wave amplitude is nearly half the bar width, a large noise reduction of as much as 30 dB is found from both numerical simulations and measurements, including a 10 dB reduction in the broadband level. The influence of the wavelength is much smaller. Analysis of the flow features showed that, with increased wave amplitudes, the spanwise flow becomes significant and strong crossflow vortices develop in the near wake which effectively suppress the primary vortex shedding. This reduces the noise level significantly, especially the tonal noise associated with the vortex shedding.
Noise Reduction, spanwise waviness, pantograph, vortex shedding
323-349
Liu, Xiaowan
85bbaeb6-7fb2-429b-8f29-3a889480d2fd
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Jurdic, V.
37a5b11b-d9c0-4cb9-8930-532988d27007
24 November 2018
Liu, Xiaowan
85bbaeb6-7fb2-429b-8f29-3a889480d2fd
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Jurdic, V.
37a5b11b-d9c0-4cb9-8930-532988d27007
Liu, Xiaowan, Hu, Zhiwei, Thompson, David and Jurdic, V.
(2018)
Reduction of aerodynamic noise from square bars by introducing spanwise waviness.
Journal of Sound and Vibration, .
(doi:10.1016/j.jsv.2018.08.007).
Abstract
This paper presents an investigation, using both numerical and experimental methods, of the application of spanwise waviness to reduce aerodynamic noise from square bars. The numerical simulations are performed using the Delayed Detached-Eddy Simulation approach to obtain the near-field unsteady flow properties, which are then used to calculate the equivalent source terms in the Ffowcs Williams-Hawkings equation for far-field noise prediction. For a straight square bar in cross-flow, which produces strong tonal noise associated with the vortex shedding, a benchmark study showed good agreement between numerical simulations and measurements in terms of far-field noise spectra. Waviness is then introduced along the bar span and the influence of the amplitude and wavelength of the waviness is studied. When the wave amplitude is nearly half the bar width, a large noise reduction of as much as 30 dB is found from both numerical simulations and measurements, including a 10 dB reduction in the broadband level. The influence of the wavelength is much smaller. Analysis of the flow features showed that, with increased wave amplitudes, the spanwise flow becomes significant and strong crossflow vortices develop in the near wake which effectively suppress the primary vortex shedding. This reduces the noise level significantly, especially the tonal noise associated with the vortex shedding.
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Accepted/In Press date: 4 August 2018
e-pub ahead of print date: 9 August 2018
Published date: 24 November 2018
Keywords:
Noise Reduction, spanwise waviness, pantograph, vortex shedding
Identifiers
Local EPrints ID: 423033
URI: http://eprints.soton.ac.uk/id/eprint/423033
ISSN: 0022-460X
PURE UUID: 8381fa46-14b7-481b-85ea-ee5fc4654916
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Date deposited: 10 Aug 2018 16:30
Last modified: 16 Mar 2024 06:58
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Author:
Xiaowan Liu
Author:
V. Jurdic
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