Asymptotic Approach to the Generalized Brinkman’s Equation with Pressure-Dependent Viscosity and Drag Coefficient

Asymptotic Approach to the Generalized Brinkman’s Equation with Pressure-Dependent Viscosity and Drag Coefficient

In this paper we investigate the fluid flow through a thin (or long) channel filled with a fluid saturated porous medium. We are motivated by some important applications of the porous medium flow in which the viscosity of fluids can change significantly with pressure. In view of that, we consider th...

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Veröffentlicht in:Journal of Applied Fluid Mechanics 2016-01, Vol.9 (6), p.3101-3107
Hauptverfasser: Pazanin, Igor, Pereira, Marcone, Suarez-Grau, Francisco Javier
Format: Artikel
Sprache:eng
Schlagworte:
Asymptotic methods
Asymptotic properties
Brinkman’s equation
Pressure-dependent viscosity
Pressure-dependent drag coefficient
Transformed pressure
Asymptotic analysis
Channels
Computational fluid dynamics
Drag
Fluid flow
Mathematical analysis
Mathematical models
Porous media
Pressure
Pressure dependence
Viscosity
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Beschreibung
Zusammenfassung:In this paper we investigate the fluid flow through a thin (or long) channel filled with a fluid saturated porous medium. We are motivated by some important applications of the porous medium flow in which the viscosity of fluids can change significantly with pressure. In view of that, we consider the generalized Brinkman's equation which takes into account the exponential dependence of the viscosity and the drag coefficient on the pressure. We propose an approach using the concept of the transformed pressure combined with the asymptotic analysis with respect to the thickness of the channel. As a result, we derive the asymptotic solution in the explicit form and compare it with the solution of the standard Brinkman's model with constant viscosity. To our knowledge, such analysis cannot be found in the existing literature and, thus, we believe that the provided result could improve the known engineering practice.
ISSN:1735-3572
1735-3645
DOI:10.29252/jafm.09.06.25756