Add to ORKGSpontaneous imbibition, as a fundamental flow phenomenon, is widely utilized in fossil energy production, carbon dioxide and underground hydrogen storage. With the development of computing, the exploration of flow laws of spontaneous imbibition has evolved from macroscopic theoretical models to pore-scale numerical analysis. Currently, the solutions for multiphase flow in pore media mainly consider the volume of fluid and the phase field, and have been classed into level set methods based on macroscopic Navier-Stokes equations and the Shan-Chen, free energy, color gradient, and phase-field methods based on mesoscopic lattice Boltzmann equations. However, no comprehensive review article has summarized the strengths and limitations of these m...
Spontaneous imbibition is a crucial process for oil recovery from fractured and unconventional reser...
A numerical model is investigated representing counter-current spontaneous imbibition of water to di...
This thesis focuses primary on two-phase displacements under capillary-controlled flow conditions at...
Spontaneous imbibition is an essential mechanism for recovering oil from low-permeability fractured ...
Spontaneous imbibition plays an important role in many practical processes, such as oil recovery, hy...
Both viscous and capillary forces control the two-phase flow in porous media. The Buckley Leverett s...
Hydraulic fracturing technology can improve the geologic structure of unconventional oil and gas res...
In shale reservoirs, spontaneous imbibition is an important mechanism of fracturing fluid loss, whic...
Spontaneous imbibition in porous media plays an important role in numerous industrial processes, but...
This paper describes the development of a consistent model system to measure spontaneous imbibition ...
Multiphase flows in large scale porous media applications depend on the cumulative collection of flo...
The multi-scaled pore networks of shale or tight reservoirs are considerably different from the conv...
Spontaneous imbibition in porous media plays a crucial role in many engineering applications such as...
Spontaneous imbibition in shale is commonly observed during and after hydraulic fracturing. This mec...
Spontaneous imbibition plays a significant role in different technical applications, and several ana...
Spontaneous imbibition is a crucial process for oil recovery from fractured and unconventional reser...
A numerical model is investigated representing counter-current spontaneous imbibition of water to di...
This thesis focuses primary on two-phase displacements under capillary-controlled flow conditions at...
Spontaneous imbibition is an essential mechanism for recovering oil from low-permeability fractured ...
Spontaneous imbibition plays an important role in many practical processes, such as oil recovery, hy...
Both viscous and capillary forces control the two-phase flow in porous media. The Buckley Leverett s...
Hydraulic fracturing technology can improve the geologic structure of unconventional oil and gas res...
In shale reservoirs, spontaneous imbibition is an important mechanism of fracturing fluid loss, whic...
Spontaneous imbibition in porous media plays an important role in numerous industrial processes, but...
This paper describes the development of a consistent model system to measure spontaneous imbibition ...
Multiphase flows in large scale porous media applications depend on the cumulative collection of flo...
The multi-scaled pore networks of shale or tight reservoirs are considerably different from the conv...
Spontaneous imbibition in porous media plays a crucial role in many engineering applications such as...
Spontaneous imbibition in shale is commonly observed during and after hydraulic fracturing. This mec...
Spontaneous imbibition plays a significant role in different technical applications, and several ana...
Spontaneous imbibition is a crucial process for oil recovery from fractured and unconventional reser...
A numerical model is investigated representing counter-current spontaneous imbibition of water to di...
This thesis focuses primary on two-phase displacements under capillary-controlled flow conditions at...