A Time-Domain Computational Simulation of Acoustic Silencers

A. Selamet; J. M. Novak; N. S. Dickey

Source: Journal of Vibration and Acoustics:;1995:;volume( 117 ):;issue: 3A::page 323

Author:

A. Selamet

J. M. Novak

N. S. Dickey

DOI: 10.1115/1.2874454

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A one-dimensional finite difference numerical method is applied for the simulation of sound attenuation in reactive silencers placed in an impedance tube configuration. This time-domain approach solves the nonlinear fundamental balance equations of mass, momentum and energy, and the equation of state. The temporal solution is first converted to the frequency domain by the Fast Fourier Transform, which is then processed by the two-microphone technique to yield transmission loss. Results are presented for the attenuation of acoustic disturbances in four basic configurations including the expansion chamber, Helmholtz resonator, quarter-wave resonator and Herschel-Quincke tube. A comparison to available experimental data and linearized acoustic theory shows excellent agreement for silencers with both anechoic and echoic terminations.

keyword(s): Acoustics , Simulation , Silencers , Waves , Numerical analysis , Equations , Equations of state , Fast Fourier transforms , Microphones , Sound , Impedance (Electricity) , Momentum AND Cloud chambers ,

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A Time-Domain Computational Simulation of Acoustic Silencers

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contributor author	A. Selamet
contributor author	J. M. Novak
contributor author	N. S. Dickey
date accessioned	2017-05-08T23:48:45Z
date available	2017-05-08T23:48:45Z
date copyright	July, 1995
date issued	1995
identifier issn	1048-9002
identifier other	JVACEK-28821#323_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/116222
description abstract	A one-dimensional finite difference numerical method is applied for the simulation of sound attenuation in reactive silencers placed in an impedance tube configuration. This time-domain approach solves the nonlinear fundamental balance equations of mass, momentum and energy, and the equation of state. The temporal solution is first converted to the frequency domain by the Fast Fourier Transform, which is then processed by the two-microphone technique to yield transmission loss. Results are presented for the attenuation of acoustic disturbances in four basic configurations including the expansion chamber, Helmholtz resonator, quarter-wave resonator and Herschel-Quincke tube. A comparison to available experimental data and linearized acoustic theory shows excellent agreement for silencers with both anechoic and echoic terminations.
publisher	The American Society of Mechanical Engineers (ASME)
title	A Time-Domain Computational Simulation of Acoustic Silencers
type	Journal Paper
journal volume	117
journal issue	3A
journal title	Journal of Vibration and Acoustics
identifier doi	10.1115/1.2874454
journal fristpage	323
journal lastpage	331
identifier eissn	1528-8927
keywords	Acoustics
keywords	Simulation
keywords	Silencers
keywords	Waves
keywords	Numerical analysis
keywords	Equations
keywords	Equations of state
keywords	Fast Fourier transforms
keywords	Microphones
keywords	Sound
keywords	Impedance (Electricity)
keywords	Momentum AND Cloud chambers
tree	Journal of Vibration and Acoustics:;1995:;volume( 117 ):;issue: 3A
contenttype	Fulltext

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