Pressure Waves in Porous Medium Saturated with Liquid Containing Gas Bubbles
Publication: Journal of Engineering Mechanics
Volume 131, Issue 9
Abstract
Theoretical analyses on nonlinear pressure waves evolution in porous medium saturated with a liquid containing gas bubbles is carried out. The evolution equations for fast and slow longitudinal modes are derived for slightly nonlinear, disperse, and dissipation processes. The pressure wave distribution in gas bubble liquid-saturated porous media was investigated experimentally. It was revealed that both modes might have oscillating structure induced by bubble oscillation in the wave. It is shown that the wave damping is determined by a combined impact of heat losses due to gas cooling in the bubbles and dissipation due to longitudinal displacement of liquid and porous skeleton, both influenced by the wave. Experimental data on the velocity and structure of fast and slow modes are compared with results of theoretical modeling.
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Acknowledgments
The funding for this work was provided by the Russian Fund for Basic Research under Grant No. UNSPECIFIED03-01-00211, State Support of Lead Research Schools provided by the President of the Russian Federation under Grant No. UNSPECIFIED523.2003.1, and Integration Project of the Siberian Branch of the Russian Academy of Sciences under Grant No. RAS22.
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© 2005 ASCE.
History
Received: Jan 14, 2004
Accepted: Dec 1, 2004
Published online: Sep 1, 2005
Published in print: Sep 2005
Notes
Note. Associate Editor: Alexander H.-D. Cheng
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