Wiener-Hopf approach for predicting the transmission loss of a circular silencer with a locally reacting lining
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Publication:534114
DOI10.1016/j.ijengsci.2004.12.003zbMath1211.76101OpenAlexW1991047295MaRDI QIDQ534114
Alinur Büyükaksoy, Ahmet Demír
Publication date: 17 May 2011
Published in: International Journal of Engineering Science (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ijengsci.2004.12.003
Related Items (6)
Analysis of traveling waveform of flexible waveguides containing absorbent material along flanged junctions ⋮ Radiation of sound in a semi-infinite hard duct inserted axially into a larger infinite lined duct ⋮ Reflection coefficient of a dominant mode in a trifurcated duct of soft walls in the presence of mean flow ⋮ Acoustic wave propagation in a trifurcated lined waveguide ⋮ Propagation of sound in a duct with mean flow ⋮ Acoustic diffraction in a trifurcated waveguide with mean flow
Cites Work
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- The Propagation of Sound in Cylindrical Ducts with Mean Flow and Bulk-reacting Lining I. Modes in an Infinite Duct
- The Propagation of Sound in Cylindrical Ducts with Mean Flow and Bulk-reacting Lining II. Bifurcated Ducts
- The Propagation of Sound in Cylindrical Ducts with Mean Flow and Bulk-reacting Lining
- The Propagation of Sound in Cylindrical Ducts with Mean Flow and Bulk-reacting Lining IV. Several Interacting Discontinuities
- Theoretical analyses of sound attenuation in acoustically lined flow ducts separated by porous splitters (rectangular, annular and circular ducts)
- Analysis of concentric-tube resonators having unpartitioned cavities
- Radiation of sound from an unflanged rigid cylindrical duct with an acoustically absorbing internal surface
- A finite element analysis of the convected acoustic wave motion in dissipative silencers
- A bifurcated circular waveguide problem
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