论文信息 - Four-Port Noise Model for the Diesel Particulate Filters (DPF)

Four-Port Noise Model for the Diesel Particulate Filters (DPF)

This work presents a 2-D field model for the study of sound propagation in a diesel particulate filter (DPF) unit. The 2-D model is formulated using Navier-stocks, energy, and continuity equations in which the normal as well as transverse component of gas velocity are retained. Temperature, pressure, density, and velocities variations with time are assumed to be harmonic. By substituting these quantities in the governing Navier-stock, energy, and continuity equations, a set of 2-D partial differential equations with respect to space are obtained . The obtained 2-D partial differential equations are solved using an approximate Fourier series expansions. The main outcome of this approximate analytical study is a 2-D acoustic model for the exhaust gases emission, with the existence of the diesel particulate filter. The approximate 2-D model is used in this work for calculating values of wave propagation constant which includes both attenuation and phase shift, finding the acoustics impedance of the DPF unit, comparing between different types of the DPF based on sound transmission losses, soot loading and on noise and vibration damping characteristics, in addition to calculating the noise reduction factor (NRF). The obtained results are compared with those presented by other investigators and a good agreement and improvements can be noticed for the presented study.

Suleiman Abu-Ein | Sayel M. Fayyad | Mohammad N. Hamdan

[1] R. J. Astley,et al. WAVE PROPAGATION IN CATALYTIC CONVERTERS: FORMULATION OF THE PROBLEM AND FINITE ELEMENT TO SOLUTION SCHEME , 1995 .

[2] K. S. Peat,et al. A First Aproximation To The Effects Of Mean Flow On Sound Propagation Through Cylindrical Capillary Tubes , 1992 .

[3] G. Greeves,et al. Origins of Hydrocarbon Emissions from Diesel Engines , 1977 .

[4] E. Dokumaci. ON TRANSMISSION OF SOUND IN CIRCULAR AND RECTANGULAR NARROW PIPES WITH SUPERIMPOSED MEAN FLOW , 1998 .

[5] Jeong-Guon Ih,et al. A NUMERICAL STUDY ON THE PROPAGATION OF SOUND THROUGH CAPILLARY TUBES WITH MEAN FLOW , 1996 .

[6] John H. Johnson,et al. Wall-Flow Diesel Particulate Filters—Their Pressure Drop and Collection Efficiency , 1989 .

[7] E. Dokumaci. AN APPROXIMATE DISPERSION EQUATION FOR SOUND WAVES IN A NARROW PIPE WITH AMBIENT GRADIENTS , 2001 .

[8] Mats Åbom,et al. Sound propagation in an array of narrow porous channels with application to diesel particulate filters , 2006 .

[9] Mats Åbom,et al. Acoustic modelling and testing of diesel particulate filters , 2005 .

[10] S. M. Shahed,et al. Effects of Injection Timing and Exhaust Gas Recirculation on Emissions from a D.I. Diesel Engine , 1981 .

[11] Choon-Su Park,et al. A MODEL FOR SOUND PROPAGATION IN CAPILLARY DUCTS WITH MEAN FLOW , 1996 .

[12] E. Dokumaci. Sound transmission in narrow pipes with superimposed uniform mean flow and acoustic modelling of automobile catalytic converters , 1995 .