Sound Reduction of Ventilation Ducts through Walls : Experimental Results and Updated Models
(2021) In Acoustics 3(4). p.695-716- Abstract
Ventilation ducts can have a negative effect on the sound reduction index between two rooms if they pass through the dividing structure without treatments. The overall sound reduction of a ventilation duct is dependent on several factors including the transmission loss when sound is breaking in and out from the duct. This study aims to model the sound reduction of a combined system with a separating wall and a ventilation duct through it. Three walls, characterized according to ISO 717-1, are combined with three different ventilation ducts, two circular and one rectangular with different dimensions. Laboratory measurement data are used to determine the sound reduction of the different configurations and the type of treatments needed for... (More)
Ventilation ducts can have a negative effect on the sound reduction index between two rooms if they pass through the dividing structure without treatments. The overall sound reduction of a ventilation duct is dependent on several factors including the transmission loss when sound is breaking in and out from the duct. This study aims to model the sound reduction of a combined system with a separating wall and a ventilation duct through it. Three walls, characterized according to ISO 717-1, are combined with three different ventilation ducts, two circular and one rectangular with different dimensions. Laboratory measurement data are used to determine the sound reduction of the different configurations and the type of treatments needed for each configuration. A proposed model with existing theory for describing sound transmission losses of circular and rectangular ventilation ducts predicts the shape of the measurement data for many frequency bands. A new theory part is developed through an iterative process for circular ducts, which is based on measurements with previous methods and studies as a guide because the existing prediction scheme is somewhat perplexing. For rectangular ducts, the existing theory has been updated to better match measurement data. The application of the proposed theory and model in this article shows similar results when compared to measurements. The difference in weighted sound reduction index between developed theories and measurement data is 0–1 dB for every configuration.
(Less)
- author
- Nilsson, Erik ; Vardaxis, Nikolaos Georgios LU ; Ménard, Sylvain and Hagberg, Delphine Bard LU
- organization
- publishing date
- 2021
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- breakin, breakout, duct wall, sound reduction, sound transmission, ventilation duct
- in
- Acoustics
- volume
- 3
- issue
- 4
- pages
- 22 pages
- publisher
- MDPI AG
- external identifiers
-
- scopus:85129312761
- ISSN
- 2624-599X
- DOI
- 10.3390/acoustics3040044
- language
- English
- LU publication?
- yes
- id
- 20c2885e-491d-49da-9d69-4b51d93bdc51
- date added to LUP
- 2022-07-05 14:16:25
- date last changed
- 2022-07-05 17:00:20
@article{20c2885e-491d-49da-9d69-4b51d93bdc51,
abstract = {{<p>Ventilation ducts can have a negative effect on the sound reduction index between two rooms if they pass through the dividing structure without treatments. The overall sound reduction of a ventilation duct is dependent on several factors including the transmission loss when sound is breaking in and out from the duct. This study aims to model the sound reduction of a combined system with a separating wall and a ventilation duct through it. Three walls, characterized according to ISO 717-1, are combined with three different ventilation ducts, two circular and one rectangular with different dimensions. Laboratory measurement data are used to determine the sound reduction of the different configurations and the type of treatments needed for each configuration. A proposed model with existing theory for describing sound transmission losses of circular and rectangular ventilation ducts predicts the shape of the measurement data for many frequency bands. A new theory part is developed through an iterative process for circular ducts, which is based on measurements with previous methods and studies as a guide because the existing prediction scheme is somewhat perplexing. For rectangular ducts, the existing theory has been updated to better match measurement data. The application of the proposed theory and model in this article shows similar results when compared to measurements. The difference in weighted sound reduction index between developed theories and measurement data is 0–1 dB for every configuration.</p>}},
author = {{Nilsson, Erik and Vardaxis, Nikolaos Georgios and Ménard, Sylvain and Hagberg, Delphine Bard}},
issn = {{2624-599X}},
keywords = {{breakin; breakout; duct wall; sound reduction; sound transmission; ventilation duct}},
language = {{eng}},
number = {{4}},
pages = {{695--716}},
publisher = {{MDPI AG}},
series = {{Acoustics}},
title = {{Sound Reduction of Ventilation Ducts through Walls : Experimental Results and Updated Models}},
url = {{http://dx.doi.org/10.3390/acoustics3040044}},
doi = {{10.3390/acoustics3040044}},
volume = {{3}},
year = {{2021}},
}