Characteristics of the flow around finite wall-mounted square cylinders and the mechanism of tonal noise
Characteristics of the flow around finite wall-mounted square cylinders and the mechanism of tonal noise
Motivated by the need to reduce the noise from train pantographs, numerical simulations are carried out for the flow over finite wall-mounted square cylinders with different aspect ratios at a Reynolds number of 1.5x10^4. Five aspect ratios (height-to-width ratios) are taken into account, namely, 1.4, 4.3, 7.1, 10 and 12.9. The effect of the aspect ratio on the aerodynamic coefficients, the near-wall flow topologies and the pressure distributions are studied in detail to give insight into the noise generation mechanisms. The pressure rate of change dp/dt on the cylinder surfaces is adopted to evaluate the dipole noise source. It turns out that distributions of dp/dt are closely related with flow evolutions near the free ends and the wall-mounting junctions of cylinders with different aspect ratios. High levels of dp/dt are found close to lateral trailing edges of the cylinder, while the strength grows quickly as the aspect ratio is increased. The far-field noise emitted from these cylinders is predicted using the Ffowcs Williams-Hawkings acoustic analogy and validated with wind tunnel measurements available in the literature. For receivers located in the cross-flow direction, a single acoustic tone near a Strouhal number of 0.1 is observed for cylinders with aspect ratios not greater than 7, while an additional tone at a higher Strouhal number occurs as the aspect ratio is further increased. The underlying mechanism of the tonal noise emitted to the far field is also investigated by combining the noise source localization and dynamic mode decompositions.
Wang, Yanan
b412bbe8-8159-4b94-b485-ef154731aa85
Ma, Boyu
9bc5b8fa-f068-42da-b50c-8b3a155468f5
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Wang, Yanan
b412bbe8-8159-4b94-b485-ef154731aa85
Ma, Boyu
9bc5b8fa-f068-42da-b50c-8b3a155468f5
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Wang, Yanan, Ma, Boyu, Hu, Zhiwei and Thompson, David
(2024)
Characteristics of the flow around finite wall-mounted square cylinders and the mechanism of tonal noise.
Physics of Fluids.
(In Press)
Abstract
Motivated by the need to reduce the noise from train pantographs, numerical simulations are carried out for the flow over finite wall-mounted square cylinders with different aspect ratios at a Reynolds number of 1.5x10^4. Five aspect ratios (height-to-width ratios) are taken into account, namely, 1.4, 4.3, 7.1, 10 and 12.9. The effect of the aspect ratio on the aerodynamic coefficients, the near-wall flow topologies and the pressure distributions are studied in detail to give insight into the noise generation mechanisms. The pressure rate of change dp/dt on the cylinder surfaces is adopted to evaluate the dipole noise source. It turns out that distributions of dp/dt are closely related with flow evolutions near the free ends and the wall-mounting junctions of cylinders with different aspect ratios. High levels of dp/dt are found close to lateral trailing edges of the cylinder, while the strength grows quickly as the aspect ratio is increased. The far-field noise emitted from these cylinders is predicted using the Ffowcs Williams-Hawkings acoustic analogy and validated with wind tunnel measurements available in the literature. For receivers located in the cross-flow direction, a single acoustic tone near a Strouhal number of 0.1 is observed for cylinders with aspect ratios not greater than 7, while an additional tone at a higher Strouhal number occurs as the aspect ratio is further increased. The underlying mechanism of the tonal noise emitted to the far field is also investigated by combining the noise source localization and dynamic mode decompositions.
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- Accepted Manuscript
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Accepted/In Press date: 25 May 2024
Identifiers
Local EPrints ID: 490962
URI: http://eprints.soton.ac.uk/id/eprint/490962
ISSN: 1070-6631
PURE UUID: 8052dbd4-20e8-42e3-b7ec-e62278282f9c
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Date deposited: 10 Jun 2024 16:52
Last modified: 11 Jul 2024 04:06
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Author:
Yanan Wang
Author:
Boyu Ma
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