ON THE NON-ISENTROPIC SOUND WAVES PROPAGATION OF A STATIONAY OR FLOWING FLUID IN A CYLINDERICAL TUBE FILLED WITH POROUS MEDIA | ||||
The International Conference on Applied Mechanics and Mechanical Engineering | ||||
Article 77, Volume 13, 13th International Conference on Applied Mechanics and Mechanical Engineering., May 2008, Page 273-284 PDF (1.26 MB) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/amme.2008.39389 | ||||
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Author | ||||
DUWAIRI H. M. | ||||
Mechanical Engineering Department, Faculty of Engineering & Technology, The University of Jordan, 11942 Amman, Jordan. | ||||
Abstract | ||||
ABSTRACT It is shown that the five parameters governing the propagation of sound waves in a fluid contained in rigid cylindrical tubes filled with a saturated porous media are the shear wave number s = R ρω / μ , ratio of specific heats γ , the Prandtl number σ , porosityε and the Darcy number Da = R2 K . A variational solution of the problem with nonisentropic wave’s propagation in a cylindrical tube in the presence and absence of a convective steady flow is presented. The manner in which the flow influences the attenuation and the phase velocity of the forward and backward propagating acoustic waves is deduced. It is found that the inclusion of the solid matrix or the increasing of Darcy number increases the attenuation and decreases the phase velocities of the forward, backward and hydrodynamic sound wave’s; this is due to favorable retarding effect of the solid matrix. The increasing of porosity is found to decrease attenuation and increases phase velocities of the forward, backward and hydrodynamic sound waves; this is due to absent role of solid matrix in damping sound waves. The effect of increasing Mach numbers is found to increase attenuation and decrease phase velocities for the backward sound waves; this is due favorable retarding steady flow velocities and decrease attenuation and increase phase velocities of the forward and hydrodynamic sound waves; this is due to favorable steady flow velocities in driving these two sound waves. | ||||
Keywords | ||||
non-isentropic; sound waves; Porous medium; Fluid flow | ||||
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