Effects of clogging on ultrasonic transmission through saturated granular single and double porosity media

•Variation of acoustic properties of the porous media with particle deposition is highlighted.•Relations between transmitted signal energy and variation of porosity are developed.•Results demonstrate the sensitivity of ultrasonic method to the clogging phenomenon or internal erosion of porous media....

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Veröffentlicht in:	Ultrasonics 2020-12, Vol.108, p.106201-106201, Article 106201
Hauptverfasser:	Kachkouch, Fatima Zahraa, Alem, Abdellah, Tinel, Alain, Franklin, Hervé, Wang, Huaqing
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Sprache:	eng
Schlagworte:	Acoustic waves Clogging Double porosity Engineering Sciences Granular media Single porosity
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creator	Kachkouch, Fatima Zahraa Alem, Abdellah Tinel, Alain Franklin, Hervé Wang, Huaqing
description	•Variation of acoustic properties of the porous media with particle deposition is highlighted.•Relations between transmitted signal energy and variation of porosity are developed.•Results demonstrate the sensitivity of ultrasonic method to the clogging phenomenon or internal erosion of porous media. The clogging caused by the deposition of suspended particles modifies in depth several mechanical parameters (permeability, porosity, bulk moduli, etc.) of porous media and influences the acoustic behaviour. Consequently, at a fixed position in the medium, changes in phase velocity and attenuation are observed in the amplitude of the temporal signal of the transmitted waves. In this work, ultrasonic techniques are presented both for detecting and measuring the clogging in a water saturated porous medium. The acoustic measurements from the clogged samples are compared with the deposition profiles obtained at the end of injection experiments. Moreover, links are established between on the one hand phase velocity and the total porosity, and on the other hand the transmitted signal energy and the variation of porosity as consequence of particle deposition.
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subjects	Acoustic waves Clogging Double porosity Engineering Sciences Granular media Single porosity
title	Effects of clogging on ultrasonic transmission through saturated granular single and double porosity media
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