Acoustic attenuation performance of a round silencer with the spiral duct at the inlet

Acoustic attenuation performance of a round silencer with the spiral duct at the inlet

The acoustic attenuation performance of a round silencer with the spiral duct at the inlet is investigated. A Finite Element Method was used for a three-dimensional numerical computations in a COMSOL Multiphysics application. A time-harmonic analysis without airflow was used for a frequency range...

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Bibliographic Details
Main Author: Wojciech Łapka
Format: Article
Language:English
Published: Institute of Fundamental Technological Research Polish Academy of Sciences 2014-01-01
Series:Archives of Acoustics
Subjects:
spiral duct
attenuation
round silencer
numerical computations
FEM.
Online Access:https://acoustics.ippt.pan.pl/index.php/aa/article/view/1416
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Summary:The acoustic attenuation performance of a round silencer with the spiral duct at the inlet is investigated. A Finite Element Method was used for a three-dimensional numerical computations in a COMSOL Multiphysics application. A time-harmonic analysis without airflow was used for a frequency range from 10 Hz to 2 kHz. The results show that the spiral duct at the inlet can improve the acoustic attenuation performance of a round silencer. The sound attenuation depends on a spiral lead, an absorbing material and frequency. The transmission loss of investigated acoustic system with spiral ducts is related to an initial acoustic system with circular pipe. The results are shown as a growth of transmission loss $\Delta$TL given by an insertion of the spiral ducts. A specific parameter given by relation of the spiral lead $s$ to constant circular duct diameter d is presented as $s/d$ ratio. The value of $\Delta$TL is determined by $s/d$ ratio and increases in specific frequencies. An acoustic wave, in those frequencies, is there divided at the outlet of the spiral duct and major acoustic energy goes aside, directly to an absorptive material, and minor acoustic energy goes axially to the silencers outlet. This is the damping effect of the spiral ducts.
ISSN:0137-5075
2300-262X

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