Add to ORKGWhen a more viscous fluid displaces a less viscous one in porous media, viscous pressure drop stabilizes the displacement front against capillary pressure fluctuation. For this favorable viscous ratio conditions, previous studies focused on the front instability under slow flow conditions but did not address competing effects of wettability and flow rate. Here we study how this competition controls displacement patterns. We propose a theoretical model that describes the crossover from fingering to stable flow as a function of invading fluid contact angle θ and capillary number Ca. The phase diagram predicted by the model shows that decreasing θ stabilizes the displacement for θ≥45° and the critical contact angle θc increases with Ca. The bo...
The applications of carbon dioxide sequestration in brine-saturated reservoirs, as well as recovery...
The change in contact angles due to the injection of low salinity water or any other wettability alt...
This article describes a semi-analytical model for two-phase immiscible flow in porous media. The mo...
When a more viscous fluid displaces a less viscous one in porous media, viscous pressure drop stabil...
Immiscible fluid displacement with average front velocities in the capillary-dominated regime is stu...
Immiscible fluid displacement with average front velocities in the capillary-dominated regime is stu...
When a less viscous fluid displaces an immiscible fluid of higher viscosity in a porous medium, the ...
AbstractThe viscous stability of the primary drainage process is of major interest for the injection...
Quadrant geometry with permeability and wettability contrast occurs in different events, such as fau...
Understanding the immiscible displacement mechanism in porous media is vital to enhancing the hydroc...
Water/oil flow characteristics in a water-wet capillary were simulated at the pore scale to increase...
The mixed-wet nature of reservoir formations imposes a wide range of rock wettability from strong re...
Finger-like protrusions that form along fluid−fluid displacement fronts in porous media are often ex...
We study experimentally how wettability impacts fluid-fluid-displacement patterns in granular media....
Two-phase immiscible displacement in porous media is controlled by capillary and viscous forces when...
The applications of carbon dioxide sequestration in brine-saturated reservoirs, as well as recovery...
The change in contact angles due to the injection of low salinity water or any other wettability alt...
This article describes a semi-analytical model for two-phase immiscible flow in porous media. The mo...
When a more viscous fluid displaces a less viscous one in porous media, viscous pressure drop stabil...
Immiscible fluid displacement with average front velocities in the capillary-dominated regime is stu...
Immiscible fluid displacement with average front velocities in the capillary-dominated regime is stu...
When a less viscous fluid displaces an immiscible fluid of higher viscosity in a porous medium, the ...
AbstractThe viscous stability of the primary drainage process is of major interest for the injection...
Quadrant geometry with permeability and wettability contrast occurs in different events, such as fau...
Understanding the immiscible displacement mechanism in porous media is vital to enhancing the hydroc...
Water/oil flow characteristics in a water-wet capillary were simulated at the pore scale to increase...
The mixed-wet nature of reservoir formations imposes a wide range of rock wettability from strong re...
Finger-like protrusions that form along fluid−fluid displacement fronts in porous media are often ex...
We study experimentally how wettability impacts fluid-fluid-displacement patterns in granular media....
Two-phase immiscible displacement in porous media is controlled by capillary and viscous forces when...
The applications of carbon dioxide sequestration in brine-saturated reservoirs, as well as recovery...
The change in contact angles due to the injection of low salinity water or any other wettability alt...
This article describes a semi-analytical model for two-phase immiscible flow in porous media. The mo...