Add to ORKGSpontaneous imbibition in porous media plays an important role in numerous industrial processes, but its underlying mechanisms are still poorly understood due to the complicated structure and multiple surface properties of natural porous media. In order to fill this gap, a quasi-three-dimensional color-gradient lattice Boltzmann model is applied to simulate the spontaneous imbibition in heterogeneous porous media micromodels, where the influence of viscosity ratio, tortuosity and mixed wettability is systematically investigated. Results show that the tortuosity has less influence on imbibition than the viscosity ratio, which leads to unstable displacement for viscosity ratios smaller than unity and to stable displacement for viscosity ratios g...
We report experiments on spontaneous imbibition of a viscous fluid by a model porous medium in the a...
Pressure-controlled displacement of an oil-water interface is studied in dense packings of functiona...
Both viscous and capillary forces control the two-phase flow in porous media. The Buckley Leverett s...
Spontaneous imbibition in porous media plays an important role in numerous industrial processes, but...
In shale reservoirs, spontaneous imbibition is an important mechanism of fracturing fluid loss, whic...
Spontaneous imbibition, as a fundamental flow phenomenon, is widely utilized in fossil energy produc...
Fully understanding the mechanism of pore-scale immiscible displacement dominated by capillary force...
Understanding the immiscible displacement mechanism in porous media is vital to enhancing the hydroc...
This paper describes the development of a consistent model system to measure spontaneous imbibition ...
Spontaneous imbibition plays an important role in many subsurface and industrial applications. Unvei...
We study experimentally how wettability impacts fluid-fluid-displacement patterns in granular media....
We present a pore-scale study of two-phase relative permeability in homogenous-wet porous media, and...
Immiscible fluid displacement in porous media is fundamental for many environmental processes, inclu...
Multiphase flow in porous media is important in many natural and industrial processes, including geo...
Using the porous structures made up of homogeneously arranged solid obstacles, we examine the effect...
We report experiments on spontaneous imbibition of a viscous fluid by a model porous medium in the a...
Pressure-controlled displacement of an oil-water interface is studied in dense packings of functiona...
Both viscous and capillary forces control the two-phase flow in porous media. The Buckley Leverett s...
Spontaneous imbibition in porous media plays an important role in numerous industrial processes, but...
In shale reservoirs, spontaneous imbibition is an important mechanism of fracturing fluid loss, whic...
Spontaneous imbibition, as a fundamental flow phenomenon, is widely utilized in fossil energy produc...
Fully understanding the mechanism of pore-scale immiscible displacement dominated by capillary force...
Understanding the immiscible displacement mechanism in porous media is vital to enhancing the hydroc...
This paper describes the development of a consistent model system to measure spontaneous imbibition ...
Spontaneous imbibition plays an important role in many subsurface and industrial applications. Unvei...
We study experimentally how wettability impacts fluid-fluid-displacement patterns in granular media....
We present a pore-scale study of two-phase relative permeability in homogenous-wet porous media, and...
Immiscible fluid displacement in porous media is fundamental for many environmental processes, inclu...
Multiphase flow in porous media is important in many natural and industrial processes, including geo...
Using the porous structures made up of homogeneously arranged solid obstacles, we examine the effect...
We report experiments on spontaneous imbibition of a viscous fluid by a model porous medium in the a...
Pressure-controlled displacement of an oil-water interface is studied in dense packings of functiona...
Both viscous and capillary forces control the two-phase flow in porous media. The Buckley Leverett s...