Physical limits on the performance of active noise control through open windows
Physical limits on the performance of active noise control through open windows
Active noise control through open windows is a noise mitigation technique that preserves natural ventilation in dwellings. Designing a practical open window active noise control system requires the knowledge of the physical limits on the attenuation performance. Of the numerous variables to be optimised, it is the control source configuration (quantity and position) that ultimately defines the maximum attenuation attainable by an active noise control system. The physical limits are characterised here by systematically investigating the performance of different physical arrangements of control sources, using a two-dimension simulation model based on the finite-element method, which includes the diffraction effects of the window. The simulations reveal that the best attenuation is achieved by placing the control sources away from the edges of the window. It also shows that the plane of control sources can be placed centrally with respect to the depth of the walls, for practical implementation with minimal performance degradation. The simulated attenuation as a function of frequency and window width, for different angles of noise incidence, can be used to provide an estimate of the number of control sources, based on the desired level of attenuation. This estimate helps to determine the configuration with the minimum number of control sources required for different scenarios, before a more detailed system design is undertaken.
9-17
Lam, Bhan
aafb1b4c-ce14-4909-97f4-9775b11f4348
Elliott, Stephen
721dc55c-8c3e-4895-b9c4-82f62abd3567
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
Gan, Woon-Seng
1936c59c-0552-498c-86a4-20bb81bb561a
August 2018
Lam, Bhan
aafb1b4c-ce14-4909-97f4-9775b11f4348
Elliott, Stephen
721dc55c-8c3e-4895-b9c4-82f62abd3567
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
Gan, Woon-Seng
1936c59c-0552-498c-86a4-20bb81bb561a
Lam, Bhan, Elliott, Stephen, Cheer, Jordan and Gan, Woon-Seng
(2018)
Physical limits on the performance of active noise control through open windows.
Applied Acoustics, 137, .
(doi:10.1016/j.apacoust.2018.02.024).
Abstract
Active noise control through open windows is a noise mitigation technique that preserves natural ventilation in dwellings. Designing a practical open window active noise control system requires the knowledge of the physical limits on the attenuation performance. Of the numerous variables to be optimised, it is the control source configuration (quantity and position) that ultimately defines the maximum attenuation attainable by an active noise control system. The physical limits are characterised here by systematically investigating the performance of different physical arrangements of control sources, using a two-dimension simulation model based on the finite-element method, which includes the diffraction effects of the window. The simulations reveal that the best attenuation is achieved by placing the control sources away from the edges of the window. It also shows that the plane of control sources can be placed centrally with respect to the depth of the walls, for practical implementation with minimal performance degradation. The simulated attenuation as a function of frequency and window width, for different angles of noise incidence, can be used to provide an estimate of the number of control sources, based on the desired level of attenuation. This estimate helps to determine the configuration with the minimum number of control sources required for different scenarios, before a more detailed system design is undertaken.
Text
Active noise control through open windows
- Accepted Manuscript
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Accepted/In Press date: 27 February 2018
e-pub ahead of print date: 9 March 2018
Published date: August 2018
Identifiers
Local EPrints ID: 418496
URI: http://eprints.soton.ac.uk/id/eprint/418496
ISSN: 0003-682X
PURE UUID: 7e2f43ca-9010-4dd3-a5f7-be49885eea5e
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Date deposited: 09 Mar 2018 17:30
Last modified: 16 Mar 2024 06:17
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Author:
Bhan Lam
Author:
Woon-Seng Gan
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