Propagation of acoustic perturbations in non-uniform ducts with non-uniform mean flow using eigen analysis in general curvilinear coordinate systems

A new framework, Eigen Analysis in General Curvilinear Coordinates (EAGCC), is presented for internal propagation of linear acoustic flow disturbances through irregular but smoothly varying duct geometries and non-uniform but smoothly varying mean flows. The framework is based on an eigen analysis o...

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Published in	Journal of sound and vibration Vol. 443; pp. 605 - 636
Main Author	Wilson, Alexander G.
Format	Journal Article
Language	English
Published	Amsterdam Elsevier Ltd 17.03.2019 Elsevier Science Ltd
Subjects	Acoustic propagation Acoustics Annular ducts Coordinates Curvilinear Ducts Eigenvalue Eigenvalues Eigenvector Eigenvectors Entropy Euler Euler-Lagrange equation Fluid flow Ideal gas Iterative methods Linearization Non-orthogonal Perturbation Propagation Reflected waves Simulation Eigenvalue Euler Perturbation Curvilinear Eigenvector Non-orthogonal
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ISSN	0022-460X 1095-8568
DOI	10.1016/j.jsv.2018.11.023

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Abstract	A new framework, Eigen Analysis in General Curvilinear Coordinates (EAGCC), is presented for internal propagation of linear acoustic flow disturbances through irregular but smoothly varying duct geometries and non-uniform but smoothly varying mean flows. The framework is based on an eigen analysis of the linearised Euler equations for a perfect gas formulated in a general curvilinear coordinate system. A series of test cases are studied, from a simple uniform cylindrical annular duct with uniform mean flow to an axially and circumferentially non-uniform duct with non-uniform mean flow, which together validate the method for acoustic propagation through non-uniform annular ducts and non-uniform but irrotational and homentropic mean flow: although the framework provides for rotational and non-homentropic mean flow, and for modelling vortical and entropic flow perturbations, these features are not validated in this paper. Two propagation methods are presented. The first is a one-way “single sweep” calculation, in which only information travelling in the direction of propagation is retained. The second is an iterative “two-way sweep” method that accurately captures reflected waves and returns transmitted and reflected perturbations. Previous eigenvector analyses were subject to limitations on geometry and mean flow (for instance slowly-varying ducts) that are not required in the current method, for which the only limitations are that the duct and mean flow vary smoothly with position. This work extends the scope of the eigenvector approach to include acoustic problems previously limited to volumetric or surface-based methods.
AbstractList	A new framework, Eigen Analysis in General Curvilinear Coordinates (EAGCC), is presented for internal propagation of linear acoustic flow disturbances through irregular but smoothly varying duct geometries and non-uniform but smoothly varying mean flows. The framework is based on an eigen analysis of the linearised Euler equations for a perfect gas formulated in a general curvilinear coordinate system. A series of test cases are studied, from a simple uniform cylindrical annular duct with uniform mean flow to an axially and circumferentially non-uniform duct with non-uniform mean flow, which together validate the method for acoustic propagation through non-uniform annular ducts and non-uniform but irrotational and homentropic mean flow: although the framework provides for rotational and non-homentropic mean flow, and for modelling vortical and entropic flow perturbations, these features are not validated in this paper. Two propagation methods are presented. The first is a one-way “single sweep” calculation, in which only information travelling in the direction of propagation is retained. The second is an iterative “two-way sweep” method that accurately captures reflected waves and returns transmitted and reflected perturbations. Previous eigenvector analyses were subject to limitations on geometry and mean flow (for instance slowly-varying ducts) that are not required in the current method, for which the only limitations are that the duct and mean flow vary smoothly with position. This work extends the scope of the eigenvector approach to include acoustic problems previously limited to volumetric or surface-based methods.
Author	Wilson, Alexander G.
Author_xml	– sequence: 1 givenname: Alexander G. surname: Wilson fullname: Wilson, Alexander G. email: a.g.wilson@soton.ac.uk organization: Institute of Sound and Vibration Research, University of Southampton, University Road, Southampton SO17 1BJ, United Kingdom
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Cites_doi	10.2514/6.2014-3113 10.1016/j.wavemoti.2014.11.007 10.2514/1.11000 10.1121/1.417913 10.1017/S0022112003006050 10.2514/1.J050723 10.2514/6.2017-3704 10.1016/S0165-2125(02)00009-4 10.1017/S0022112001005559 10.1121/1.1788733 10.1017/S0022112098003607 10.2514/1.3253 10.1098/rspa.2016.0094 10.2514/6.2001-2135 10.2514/6.2016-3028 10.1017/S0022112007009603 10.1006/jsvi.2000.3411 10.1098/rspa.2014.0008
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SubjectTerms	Acoustic propagation Acoustics Annular ducts Coordinates Curvilinear Ducts Eigenvalue Eigenvalues Eigenvector Eigenvectors Entropy Euler Euler-Lagrange equation Fluid flow Ideal gas Iterative methods Linearization Non-orthogonal Perturbation Propagation Reflected waves Simulation
Title	Propagation of acoustic perturbations in non-uniform ducts with non-uniform mean flow using eigen analysis in general curvilinear coordinate systems
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