M. Chaouche scite author profile

We investigate effects of capillary heterogeneity induced by variations in permeability in the direction of displacement in heterogeneous porous media. The investigation is three-pronged and uses macroscopic simulat.ion, based on the standard continuum equations, experiments with the use of an acoustic technique and pore network numerical models. It is found that heterogeneity affects significantly the saturation profiles, the effect being stronger at lower rates. For drainage, a good agreement is found between continuum model predictions, experimental results and the pore network numerical models based on which it can be concluded that capillary heterogeneity effects in the direction of displacement act much like a body force (e.g. gravity). The results are interpreted with the use of invasion percolation concepts. For secondary imbibition, a poorer agreement exists between continuum model and experimental results at low capillary numbers, which requires the use of a pore network simulator involving film flow. Numerical simulation results are discussed for 2-D geometries.

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M. Chaouche

Invasion percolation in a hydrostatic or permeability gradient: Experiments and simulations

Capillary effects in drainage in heterogeneous porous media: continuum modelling, experiments and pore network simulations

Capillary Effects in Immiscible Flows in Heterogeneous Porous Media

Correlation of Occupation Profiles in Invasion Percolation

Capillary Effects in Heterogeneous Porous Media: Experiments, Pore Network Simulations, and Continuum Modeling

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