Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/113211
Citations
Scopus Web of Science® Altmetric
?
?
Type: Journal article
Title: Acoustic end-correction in a flow-reversal end chamber muffler: a semi-analytical approach
Author: Mimani, A.
Munjal, M.
Citation: Journal of Computational Acoustics, 2016; 24(2):1650004-1-1650004-44
Publisher: World Scientific Publishing
Issue Date: 2016
ISSN: 0218-396X
1793-6489
Statement of
Responsibility: 
A. Mimani and M. L. Munjal
Abstract: This work presents a semi-analytical technique based on the Green's function and uniform-piston driven model to determine the end-correction length l in an axially long flow-reversal end chamber muffler having an end-inlet and an end-outlet. The semi-analytical procedure is based on the 3D analytical uniform piston-driven model for obtaining the impedance Z] matrix parameters and numerically evaluating the frequency f(p) at which the imaginary part of the cross-impedance parameter Z(E2E1) crosses the frequency axis at the first instance. The frequency f(p) corresponds to the low-frequency peak in the transmission loss (TL) spectrum of the axially long flow-reversal end-chamber muffler obtained a priori to its computation by considering the influence of higher order evanescent transverse modes. The effective chamber length (and thence, the end-correction length) in the low-frequency range are determined by using the expression for resonance frequency of a classical quarter-wave resonator. This method is employed to determine the end-correction in axially long elliptical cylindrical end chambers and circular cylindrical end chambers (with or without a rigid concentric circular pass-tube). The TL graph predicted by the 1D axial plane wave model (incorporating the end-correction length) is shown to be in an excellent agreement with that obtained by the 3D analytical approach and an experimental result (from literature) up to the low-frequency limit, thereby validating the semi-analytical technique. Parametric studies are conducted using the proposed semi-analytical method to investigate and qualitatively explain the effect of angular location and offset distance of the end ports and the pass-tube diameter on the end-correction length, thereby yielding important insights into the influence of transverse evanescent modes on dominant axial plane wave modes of the axially long end-chamber. Development of an empirical end-correction expression in a flow-reversal circular end-chamber with offset inlet and outlet ports is a practically useful contribution of this work.
Keywords: Acoustic end-correction; flow-reversal end chamber; effective acoustic length; quarter-wave resonator; 3D Green’s function; elliptical and circular cylindrical chamber
Rights: Copy right for this article belongs to the WORLD SCIENTIFIC PUBL CO PTE LTD.
RMID: 0030048127
DOI: 10.1142/S0218396X16500041
Appears in Collections:Mechanical Engineering publications

Files in This Item:
There are no files associated with this item.


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.