6533b83afe1ef96bd12a7077
RESEARCH PRODUCT
Macroscopic equations of motion for two-phase flow in porous media
Rudolf HilferRudolf Hilfersubject
Condensed Matter - Materials ScienceCapillary pressureMaterials scienceContinuum mechanicsMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesEquations of motionCapillary numberPhysics::Fluid DynamicsSurface tensionCapillary lengthClassical mechanicsCapillary surfaceDisplacement (fluid)description
The established macroscopic equations of motion for two phase immiscible displacement in porous media are known to be physically incomplete because they do not contain the surface tension and surface areas governing capillary phenomena. Therefore a more general system of macroscopic equations is derived here which incorporates the spatiotemporal variation of interfacial energies. These equations are based on the theory of mixtures in macroscopic continuum mechanics. They include wetting phenomena through surface tensions instead of the traditional use of capillary pressure functions. Relative permeabilities can be identified in this approach which exhibit a complex dependence on the state variables. A capillary pressure function can be identified in equilibrium which shows the qualitative saturation dependence known from experiment. In addition the new equations allow to describe the spatiotemporal changes of residual saturations during immiscible displacement.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1998-04-28 | Physical Review E |