High-order asymptotic expansion for the acoustics in viscous gases close to rigid walls

Kersten Schmidt; Anastasia Thöns-Zueva; Patrick Joly

doi:10.1142/S0218202514500080

High-order asymptotic expansion for the acoustics in viscous gases close to rigid walls

Kersten Schmidt
, Anastasia Thöns-Zueva
, Patrick Joly

TU Berlin

Research output: Contribution to journal › Article › peer-review

Abstract

We derive a complete asymptotic expansion for the singularly perturbed problem of acoustic wave propagation inside gases with small viscosity. This derivation is for the non-resonant case in smooth bounded domains in two dimensions. Close to rigid walls the tangential velocity exhibits a boundary layer of size $O(η)$ where η is the dynamic viscosity. The asymptotic expansion, which is based on the technique of multiscale expansion is expressed in powers of $ η$ and takes into account curvature effects. The terms of the velocity and pressure expansion are defined independently by partial differential equations, where the normal component of velocities or the normal derivative of the pressure, respectively, are prescribed on the boundary. The asymptotic expansion is rigorously justified with optimal error estimates.

Original language	English
Pages (from-to)	1823-1855
Number of pages	33
Journal	Mathematical Models and Methods in Applied Sciences
Volume	24
Issue number	9
DOIs	https://doi.org/10.1142/S0218202514500080
Publication status	Published - 1 Jan 2014

Keywords

Acoustic wave propagation
asymptotic expansions
singularly perturbed PDE

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abstract = "We derive a complete asymptotic expansion for the singularly perturbed problem of acoustic wave propagation inside gases with small viscosity. This derivation is for the non-resonant case in smooth bounded domains in two dimensions. Close to rigid walls the tangential velocity exhibits a boundary layer of size \$O(η)\$ where η is the dynamic viscosity. The asymptotic expansion, which is based on the technique of multiscale expansion is expressed in powers of \$ η\$ and takes into account curvature effects. The terms of the velocity and pressure expansion are defined independently by partial differential equations, where the normal component of velocities or the normal derivative of the pressure, respectively, are prescribed on the boundary. The asymptotic expansion is rigorously justified with optimal error estimates.",

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T1 - High-order asymptotic expansion for the acoustics in viscous gases close to rigid walls

AU - Schmidt, Kersten

AU - Thöns-Zueva, Anastasia

AU - Joly, Patrick

PY - 2014/1/1

Y1 - 2014/1/1

N2 - We derive a complete asymptotic expansion for the singularly perturbed problem of acoustic wave propagation inside gases with small viscosity. This derivation is for the non-resonant case in smooth bounded domains in two dimensions. Close to rigid walls the tangential velocity exhibits a boundary layer of size $O(η)$ where η is the dynamic viscosity. The asymptotic expansion, which is based on the technique of multiscale expansion is expressed in powers of $ η$ and takes into account curvature effects. The terms of the velocity and pressure expansion are defined independently by partial differential equations, where the normal component of velocities or the normal derivative of the pressure, respectively, are prescribed on the boundary. The asymptotic expansion is rigorously justified with optimal error estimates.

AB - We derive a complete asymptotic expansion for the singularly perturbed problem of acoustic wave propagation inside gases with small viscosity. This derivation is for the non-resonant case in smooth bounded domains in two dimensions. Close to rigid walls the tangential velocity exhibits a boundary layer of size $O(η)$ where η is the dynamic viscosity. The asymptotic expansion, which is based on the technique of multiscale expansion is expressed in powers of $ η$ and takes into account curvature effects. The terms of the velocity and pressure expansion are defined independently by partial differential equations, where the normal component of velocities or the normal derivative of the pressure, respectively, are prescribed on the boundary. The asymptotic expansion is rigorously justified with optimal error estimates.

KW - Acoustic wave propagation

KW - asymptotic expansions

KW - singularly perturbed PDE

U2 - 10.1142/S0218202514500080

DO - 10.1142/S0218202514500080

M3 - Article

AN - SCOPUS:84901364730

SN - 0218-2025

VL - 24

SP - 1823

EP - 1855

JO - Mathematical Models and Methods in Applied Sciences

JF - Mathematical Models and Methods in Applied Sciences

IS - 9

ER -

High-order asymptotic expansion for the acoustics in viscous gases close to rigid walls

Abstract

Keywords

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