Pore-Scale Behavior of Darcy Flow in Static and Dynamic Porous Media

Aminpour, M, Galindo-Torres, SA ORCID: 0000-0002-2400-2794, Scheuermann, A and Li, L (2018) Pore-Scale Behavior of Darcy Flow in Static and Dynamic Porous Media. PHYSICAL REVIEW APPLIED, 9 (6). 064025-.

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Abstract

Lattice-Boltzmann numerical simulations are conducted to explore the pore-scale flow behavior inside modeled porous media over the Darcy regime. We use static (fixed) and dynamic (rotating) particles to form the porous media. The pore flow behavior (tortuosity) is found to be constant in the static medium within the Darcy range. However, the study reveals distinctively different flow structures in the dynamic case depending on the macroscopic Darcy flow rate and the level of internal energy imposed to the system (via the angular velocity of particles). With small Darcy flow rates, tortuous flow develops with vortices occupying a large portion of the pore space but contributing little to the net flow. The formation of the vortices is linked to spatial fluctuations of local pore fluid pressure. As the Darcy flow rate (and, hence, the global fluid pressure gradient across the medium) increases, the effect of local pressure fluctuations diminishes, and the flow becomes more channelized. Despite the large variations of the pore-scale flow characteristics in the dynamic porous media, the macroscopic flow satisfies Darcy's law with an invariant permeability. The applicability of Darcy's law is proven for an internally disturbed flow through porous media. The results raise questions concerning the generality of the models describing the Darcy flow as being channelized with constant (structure-dependent) tortuosity and how the internal sources of energy imposed to the porous media flow are considered.

Item Type:	Article
Depositing User:	Symplectic Admin
Date Deposited:	06 Nov 2018 11:09
Last Modified:	16 Mar 2024 23:23
DOI:	10.1103/PhysRevApplied.9.064025
Related URLs:	Author Publisher
URI:	https://livrepository.liverpool.ac.uk/id/eprint/3028407