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Écoulements de fluides à seuil en milieux confinés

Abstract : To better understand the specifics of the flow of yield stress fluids in confined geometries, we opted for a multi-scale experimental and / or numerical approach in complex and model porous media. We show the usefulness of NMR for the study of yield stress fluid's flows in complex geometry. In a porous medium, we can also measure the true probability density function of fluid velocities without spatial resolution problem thanks to a complete optimisation of the design process of a NMR-PGSE experiment. Using these measurement technics, we find that the flow of a yield stress fluid in a model pore (an axisymetric expansion-contraction) is localised in the central part of the pore, i.e. in the continuity of the entry duct, and the external region stay at rest in the solid regime. Numerical simulations confirm those results and point out that the flow localisation is due to the confinement caused by the geometry. On the contrary, no region at rest exists for a yield stress fluid flowing through a real porous media (in 3D). Furthermore, the velocity distribution is the same as a newtonian fluid. The analysis of the results makes it possible to deduce the form of the Darcy's law for yield stress fluids and provides an insight in the physical origin of the coefficients found by “macroscopical” injection experiments
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Submitted on : Thursday, February 20, 2014 - 12:17:47 PM
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  • HAL Id : tel-00903850, version 3


Thibaud Chevalier. Écoulements de fluides à seuil en milieux confinés. Autre. Université Paris-Est, 2013. Français. ⟨NNT : 2013PEST1104⟩. ⟨tel-00903850v3⟩



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