We present a theoretical and experimental investigation of drainage in porous media. The study is limited to stabilized fluid fronts at moderate injection rates, but it takes into account capillary, viscous, and gravitational forces. In the theoretical framework presented, the work applied on the system, the energy dissipation, the final saturation and the width of the stabilized fluid front can all be calculated if we know the dimensionless fluctuation number, the wetting properties, the surface tension between the fluids, the fractal dimensions of the invading structure and its boundary, and the exponent describing the divergence of the correlation length in percolation. Furthermore, our theoretical description explains how the Haines jum...
textThe efficiency of one fluid displacing another in a permeable medium depends on the pore-scale d...
© 2020, Georesursy LLC. All rights reserved. This paper presents the results of numerical simulation...
During drainage, as a voxel of porous material is being actively invaded prior to percolation, the i...
International audienceWe present a theoretical and experimental investigation of drainage in porous ...
The intermittent burst dynamics during the slow drainage of a porous medium is studied experimentall...
This work concentrates on the flow properties when one fluid displaces another fluid in a network of...
This study examines the dynamics of two-phase drainage with experiments of air invasion into a trans...
The intermittent dynamics of slow drainage flows in a porous medium is studied experimentally. This ...
International audienceThe intermittent dynamics of slow drainage flows in a porous medium is studied...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
We experimentally and numerically study the influence of gravity and finite-size effects onthe press...
We study the spatial correlation of one-dimensional (1-D) saturation profiles obtained during slow d...
The influence of stabilizing hydrostatic pressure gradients on the drainage of a fractal porous medi...
PACS. 47.20.Gv – Viscous instability. PACS. 47.54.+r – Pattern selection; pattern formation. PACS. 4...
Multiphase flow through a porous medium involves complex interactions between capillarity, viscosity...
textThe efficiency of one fluid displacing another in a permeable medium depends on the pore-scale d...
© 2020, Georesursy LLC. All rights reserved. This paper presents the results of numerical simulation...
During drainage, as a voxel of porous material is being actively invaded prior to percolation, the i...
International audienceWe present a theoretical and experimental investigation of drainage in porous ...
The intermittent burst dynamics during the slow drainage of a porous medium is studied experimentall...
This work concentrates on the flow properties when one fluid displaces another fluid in a network of...
This study examines the dynamics of two-phase drainage with experiments of air invasion into a trans...
The intermittent dynamics of slow drainage flows in a porous medium is studied experimentally. This ...
International audienceThe intermittent dynamics of slow drainage flows in a porous medium is studied...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
We experimentally and numerically study the influence of gravity and finite-size effects onthe press...
We study the spatial correlation of one-dimensional (1-D) saturation profiles obtained during slow d...
The influence of stabilizing hydrostatic pressure gradients on the drainage of a fractal porous medi...
PACS. 47.20.Gv – Viscous instability. PACS. 47.54.+r – Pattern selection; pattern formation. PACS. 4...
Multiphase flow through a porous medium involves complex interactions between capillarity, viscosity...
textThe efficiency of one fluid displacing another in a permeable medium depends on the pore-scale d...
© 2020, Georesursy LLC. All rights reserved. This paper presents the results of numerical simulation...
During drainage, as a voxel of porous material is being actively invaded prior to percolation, the i...