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Main Author: Leão, Tairone Paiva
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.01711
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author Leão, Tairone Paiva
author_facet Leão, Tairone Paiva
contents The estimation of the permeability of porous media to fluids is of fundamental importance in fields as diverse as oil and gas industry, agriculture, hydrology and medicine. Despite more than 150 years since the publication of Darcy's linear law for flow in porous media, several questions remain regarding the range of validity of this law, the constancy of the permeability coefficient and how to define the transition from Darcy flow to other flow regimes. This study is a numerical investigation of the permeability and flow stability in a nonrandom quasi-tridimensional porous medium analog. The effect of increasing pressure gradient on the velocity field and on the estimation of Darcy and Darcy-Forchheimer coefficients is investigated for three different obstacle's radiuses. The transition from Darcy flow to nonlinear behavior is associated with the formation of jets in the outlet of the porous medium and development of flow instabilities. Different representations of the Reynolds number proved adequate to detect deviation from the linear law. The instantaneous permeability calculated at each pressure gradient was sensitive to flow velocity, in agreement with previous studies stating that permeability cannot be conceptualized as a constant for real flows.
format Preprint
id arxiv_https___arxiv_org_abs_2406_01711
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Flow stability and permeability in a nonrandom porous medium analog
Leão, Tairone Paiva
Fluid Dynamics
The estimation of the permeability of porous media to fluids is of fundamental importance in fields as diverse as oil and gas industry, agriculture, hydrology and medicine. Despite more than 150 years since the publication of Darcy's linear law for flow in porous media, several questions remain regarding the range of validity of this law, the constancy of the permeability coefficient and how to define the transition from Darcy flow to other flow regimes. This study is a numerical investigation of the permeability and flow stability in a nonrandom quasi-tridimensional porous medium analog. The effect of increasing pressure gradient on the velocity field and on the estimation of Darcy and Darcy-Forchheimer coefficients is investigated for three different obstacle's radiuses. The transition from Darcy flow to nonlinear behavior is associated with the formation of jets in the outlet of the porous medium and development of flow instabilities. Different representations of the Reynolds number proved adequate to detect deviation from the linear law. The instantaneous permeability calculated at each pressure gradient was sensitive to flow velocity, in agreement with previous studies stating that permeability cannot be conceptualized as a constant for real flows.
title Flow stability and permeability in a nonrandom porous medium analog
topic Fluid Dynamics
url https://arxiv.org/abs/2406.01711