Acoustic modelling of over-the-rotor liners
Acoustic modelling of over-the-rotor liners
Due to the additional noise reduction obtained with Over-the-Rotor (OTR) liners compared to the conventional liners at the intake of an aero-engine, the application of acoustic liners close to or immediately over a sound source has attracted substantial interest. This enhanced noise reduction in OTR liners is attributed primarily to the source modification effect (caused by the back reaction). The exact mechanism of source modification is not entirely understood, though. This paper seeks to explain this mechanism, by separating and measuring the source modification effect from the overall noise reduction obtained by the OTR liner configuration. The problem is investigated numerically in COMSOL Multiphysics by assuming a static monopole point source over a finite liner insert in the half space domain. Background mean-flow is considered to be zero in this study, and the insertion loss is predicted for varying source locations and liner lengths. This paper has determined that the back reaction effect is significant only in the region within the e/$\lambda = 0.25$, where $e$ is the distance between the source and the liner wall and $\lambda$ is the acoustic wavelength. An optimal liner length ($L/e\approx15$) that provides the maximum insertion loss as a result of source modification can be predicted within this region. It has also been discovered that the liner length, source location, and frequency have an impact on the liners' ideal impedance.
Aerospace Research Central
Subramanyam, Ramesh Raja
7ffe1b2a-a3ac-4433-9090-76babf8dafc4
Palani, Suresh
62cb4236-3b73-412f-9bee-8064a6e494c7
Paruchuri, Chaitanya
5c1def64-6347-4be3-ac2d-b9f6a314b81d
Palleja-Cabre, Sergi
b841a96c-05d1-4f08-a197-8693cb3a3f90
8 June 2023
Subramanyam, Ramesh Raja
7ffe1b2a-a3ac-4433-9090-76babf8dafc4
Palani, Suresh
62cb4236-3b73-412f-9bee-8064a6e494c7
Paruchuri, Chaitanya
5c1def64-6347-4be3-ac2d-b9f6a314b81d
Palleja-Cabre, Sergi
b841a96c-05d1-4f08-a197-8693cb3a3f90
Subramanyam, Ramesh Raja, Palani, Suresh, Paruchuri, Chaitanya and Palleja-Cabre, Sergi
(2023)
Acoustic modelling of over-the-rotor liners.
In Proceedings of the AIAA AVIATION 2023 Forum.
Aerospace Research Central..
(doi:10.2514/6.2023-3504).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Due to the additional noise reduction obtained with Over-the-Rotor (OTR) liners compared to the conventional liners at the intake of an aero-engine, the application of acoustic liners close to or immediately over a sound source has attracted substantial interest. This enhanced noise reduction in OTR liners is attributed primarily to the source modification effect (caused by the back reaction). The exact mechanism of source modification is not entirely understood, though. This paper seeks to explain this mechanism, by separating and measuring the source modification effect from the overall noise reduction obtained by the OTR liner configuration. The problem is investigated numerically in COMSOL Multiphysics by assuming a static monopole point source over a finite liner insert in the half space domain. Background mean-flow is considered to be zero in this study, and the insertion loss is predicted for varying source locations and liner lengths. This paper has determined that the back reaction effect is significant only in the region within the e/$\lambda = 0.25$, where $e$ is the distance between the source and the liner wall and $\lambda$ is the acoustic wavelength. An optimal liner length ($L/e\approx15$) that provides the maximum insertion loss as a result of source modification can be predicted within this region. It has also been discovered that the liner length, source location, and frequency have an impact on the liners' ideal impedance.
This record has no associated files available for download.
More information
Published date: 8 June 2023
Identifiers
Local EPrints ID: 478741
URI: http://eprints.soton.ac.uk/id/eprint/478741
PURE UUID: 52363161-dc07-4bb3-9b47-f13b7afc2367
Catalogue record
Date deposited: 07 Jul 2023 16:52
Last modified: 17 Mar 2024 03:48
Export record
Altmetrics
Contributors
Author:
Ramesh Raja Subramanyam
Author:
Suresh Palani
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