Experimental near-field analysis for flow induced noise of a structured porous-coated cylinder
Experimental near-field analysis for flow induced noise of a structured porous-coated cylinder
Porous coating on cylinders reduces the aerodynamic noise due to vortex shedding. A key understanding of how porous media suppress vortex shedding is related to near-field hydrodynamics. In this paper, an experimental study was undertaken over the Reynolds number range of to measure outer diameter surface pressure fluctuations of a structured porous-coated cylinder (SPCC). The near- field pressure and far-field noise were measured simultaneously to obtain a deep understanding of the noise-reduction mechanism of the SPCC. The results showed that the SPCC causes a delay in the boundary layer separation compared to the bare cylinder. While a substantial reduction in far-field noise was provided by the SPCC, a high-frequency noise attributed to the non-propagating hydrodynamic energy field within the SPCC was observed. The use of an SPCC led to a reduction in the surface pressure fluctuations over the entire frequency range, acting as a noise reduction mechanism. It was shown that the surface pressure fluctuations and acoustic signals are strongly correlated at the vortex shedding frequency for the bare cylinder, while it was insignificant for the SPCC, indicating the strong role of the SPCC in reducing the surface pressure energy content so that it cannot propagate to the far-field. The evaluation of vortex shedding in the time–frequency domain was carried out with the aid of wavelet transform. It was observed that amplitude modulation in time was verified only for the bare cylinder at the fundamental vortex shedding frequency in the pre- and post-separation regions.
Maryami, Reza
2f246740-2fa8-44a3-a9ad-9b28a768ade4
Arcondoulis, Elias JG
4e0c8bdf-1810-4d4e-b8e8-9ba9ccd6b746
Liu, Qian
793d2b64-ac82-4eab-8053-46033ad56b6e
Liu, Yu
90ae993c-d241-4945-af1c-1c8cf791a603
12 May 2023
Maryami, Reza
2f246740-2fa8-44a3-a9ad-9b28a768ade4
Arcondoulis, Elias JG
4e0c8bdf-1810-4d4e-b8e8-9ba9ccd6b746
Liu, Qian
793d2b64-ac82-4eab-8053-46033ad56b6e
Liu, Yu
90ae993c-d241-4945-af1c-1c8cf791a603
Maryami, Reza, Arcondoulis, Elias JG, Liu, Qian and Liu, Yu
(2023)
Experimental near-field analysis for flow induced noise of a structured porous-coated cylinder.
Journal of Sound and Vibration, 551, [117611].
(doi:10.1016/j.jsv.2023.117611).
Abstract
Porous coating on cylinders reduces the aerodynamic noise due to vortex shedding. A key understanding of how porous media suppress vortex shedding is related to near-field hydrodynamics. In this paper, an experimental study was undertaken over the Reynolds number range of to measure outer diameter surface pressure fluctuations of a structured porous-coated cylinder (SPCC). The near- field pressure and far-field noise were measured simultaneously to obtain a deep understanding of the noise-reduction mechanism of the SPCC. The results showed that the SPCC causes a delay in the boundary layer separation compared to the bare cylinder. While a substantial reduction in far-field noise was provided by the SPCC, a high-frequency noise attributed to the non-propagating hydrodynamic energy field within the SPCC was observed. The use of an SPCC led to a reduction in the surface pressure fluctuations over the entire frequency range, acting as a noise reduction mechanism. It was shown that the surface pressure fluctuations and acoustic signals are strongly correlated at the vortex shedding frequency for the bare cylinder, while it was insignificant for the SPCC, indicating the strong role of the SPCC in reducing the surface pressure energy content so that it cannot propagate to the far-field. The evaluation of vortex shedding in the time–frequency domain was carried out with the aid of wavelet transform. It was observed that amplitude modulation in time was verified only for the bare cylinder at the fundamental vortex shedding frequency in the pre- and post-separation regions.
This record has no associated files available for download.
More information
Published date: 12 May 2023
Identifiers
Local EPrints ID: 506123
URI: http://eprints.soton.ac.uk/id/eprint/506123
ISSN: 0022-460X
PURE UUID: 902bc4b9-b063-43ea-8607-90f40df7f3b6
Catalogue record
Date deposited: 28 Oct 2025 18:32
Last modified: 29 Oct 2025 03:15
Export record
Altmetrics
Contributors
Author:
Reza Maryami
Author:
Elias JG Arcondoulis
Author:
Qian Liu
Author:
Yu Liu
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics