Multi-pass Perforated Tube Silencers: a Computational Approach†
نویسنده
چکیده
A time domain computational approach is applied to predict the acoustic performance of multiple pass silencers with perforated tube sections. This non-linear, one-dimensional method may readily include temporal and spatial variations in sound pressure level, orifice flow velocities, and mean duct flow, all of which affect the local orifice behaviour of perforated tube elements, and therefore the overall noise reduction characteristics. The transmission loss of two anechoically terminated multiple pass muffler configurations is determined computationally and experimentally for the limiting case of low sound pressure levels and zero mean flow. Comparisons between the numerical results and experimental data are shown to correlate well for frequencies where the one-dimensional assumption is justified. 7 1998 Academic Press Limited
منابع مشابه
The effect of high-amplitude sound on the attenuation of perforated tube silencers
A time-domain computational approach is applied to investigate the behavior of perforated tube silencers at high sound levels. The one-dimensional computational technique employs a lumped parameter model for the perforate flows. The lumped parameter perforate model is based on time-invariant approximations for the equivalent length l(eq) and resistance R, consistent with the use of a nonlinear ...
متن کاملAcoustic attenuation of hybrid silencers
The acoustic attenuation of a single-pass, perforated concentric silencer filled with continuous strand fibers is investigated first theoretically and experimentally. The study is then extended to a specific type of hybrid silencer that consists of two single-pass perforated filling chambers combined with a Helmholtz resonator. One-dimensional analytical and three-dimensional boundary element m...
متن کاملAcoustic attenuation performance analysis of multi-chamber reactive silencers
The multi-chamber reactive silencers are widely used to reduce engine exhaust noise as well as blower intake and discharge noise. Davis et al. [1] developed a one-dimensional analytical approach, which assumes plane wave propagation in the axial direction in silencers, to predict the acoustic attenuation performance of double expansion chamber reactive silencers, and compared the predictions wi...
متن کاملStructural Analysis of the Exhaust Gas Silencer for the Flow through Perforated and Non-perforated Silencer
To minimize unwanted noise, the exhaust gas of high pressure and high temperature coming out of internal combustion engine passes through silencer. Various types of silencers like absorptive, reactive and resonating, perforated type are widely implemented in actual practice .perforated reactive mufflers have an effective damping capability. This paper deals with comparative structural analysis ...
متن کاملSound attenuation using duct silencers with micro-perforated panel absorbers
Micro-perforated panel (MPP) can be used as non-fibrous acoustic absorber which can provide broadband sound absorption performance. In this study, a sub-structuring methodology based on the Patch Transfer Function (PTF) approach to deal with duct silencers with MPP absorbers and internal partitions is proposed, and the sound attenuation performance of such silencers is investigated. Reactive si...
متن کامل