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From Darcy Equation to Darcy Paradox

This theoretical paper focuses on the single-phase fluid flow through a granular porous medium. The emphasis is on the Darcy flow regime (without free boundary) of a linear viscous fluid in a saturated, deformable, homogeneous porous medium. The approach is developed at the Darcy scale (also referred to as macroscale or phenomenological scale). Within this framework, some discrete aspects of the flow model are highlighted, the governing equations are revisited, the thermodynamic state functions are reconsidered, and the Darcy paradox is presented. The Darcy paradox is illustrated for the isoshoric-isothermal flow of a viscous fluid in the liquid state, in a homogenous porous medium. After some remarks about the intrinsic assumption of this kind of flow, the governing equations are reduced to a well-known parabolic equation. According to this equation, infinitesimal pressure disturbances diffuse at an infinite speed. To remove this paradox, a mathematical model, based on the elementary scales method, is employed.

MDPI AG

Carmine Di Nucci Daniele Celli

Fluids

2022

Title: From Darcy Equation to Darcy Paradox

Description:

This theoretical paper focuses on the single-phase fluid flow through a granular porous medium.

The emphasis is on the Darcy flow regime (without free boundary) of a linear viscous fluid in a saturated, deformable, homogeneous porous medium.

The approach is developed at the Darcy scale (also referred to as macroscale or phenomenological scale).

Within this framework, some discrete aspects of the flow model are highlighted, the governing equations are revisited, the thermodynamic state functions are reconsidered, and the Darcy paradox is presented.

The Darcy paradox is illustrated for the isoshoric-isothermal flow of a viscous fluid in the liquid state, in a homogenous porous medium.

After some remarks about the intrinsic assumption of this kind of flow, the governing equations are reduced to a well-known parabolic equation.

According to this equation, infinitesimal pressure disturbances diffuse at an infinite speed.

To remove this paradox, a mathematical model, based on the elementary scales method, is employed.

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