Modeling of a non-Newtonian thin film passing a thin porous medium

Abstract

This theoretical study deals with asymptotic behavior of a coupling between a thin film of fluid and an adjacent thin porous medium. We assume that the size of the microstructure of the porous medium is given by a small parameter 0< 1, the thickness of the thin porous medium is defined by a parameter 0<h 1, and the thickness of the thin film is defined by a small parameter 0<η 1, where h and η are devoted to tend to zero when 0. In this paper, we consider the case of a non-Newtonian fluid governed by the incompressible Stokes equations with power law viscosity of flow index r∈ (1, +∞), and we prove that there exists a critical regime, which depends on r, between , η and h. More precisely, in this critical regime given by h≈ η2r-1 r-1-r r-1, we prove that the effective flow when 0 is described by a 1D Darcy law coupled with a 1D Reynolds law.

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