Abstract
Immiscible two-phase flow in porous media with mixed wet conditions was examined using a capillary fiber bundle model, which is analytically solvable, and a dynamic pore network model. The mixed wettability was implemented in the models by allowing each tube or link to have a different wetting angle chosen randomly from a given distribution. Both models showed that mixed wettability can have significant influence on the rheology in terms of the dependence of the global volumetric flow rate on the global pressure drop. In the capillary fiber bundle model, for small pressure drops when only a small fraction of the tubes were open, it was found that the volumetric flow rate depended on the excess pressure drop as a power law with an exponent equal to 3/2 or 2 depending on the minimum pressure drop necessary for flow. When all the tubes were open due to a high pressure drop, the volumetric flow rate depended linearly on the pressure drop, independent of the wettability. In the transition region in between where most of the tubes opened, the volumetric flow depended more sensitively on the wetting angle distribution function and was in general not a simple power law. The dynamic pore network model results also showed a linear dependence of the flow rate on the pressure drop when the pressure drop is large. However, out of this limit the dynamic pore network model demonstrated a more complicated behavior that depended on the mixed wettability condition and the saturation. In particular, the exponent relating volumetric flow rate to the excess pressure drop could take on values anywhere between 1.0 and 1.8. The values of the exponent were highest for saturations approaching 0.5, also, the exponent generally increased when the difference in wettability of the two fluids were larger and when this difference was present for a larger fraction of the porous network.
Highlights
The study of rheology of two-phase flow in porous media is pivotal for many disciplines, and the wettability conditions of the system is an important factor that directly affects the rheology
We studied systematically the effect of mixed wetting conditions on the effective rheology of two-phase flow in porous media by using the capillary fiber bundle (CFB) model and the dynamic pore network (DPN) model
The two models are not quantitatively comparable, they are qualitatively similar. Both models show that mixed wettability conditions can have significant influence on the rheology in terms of the dependence of the global volumetric flow rate Q on the global pressure drop P
Summary
The study of rheology of two-phase flow in porous media is pivotal for many disciplines, and the wettability conditions of the system is an important factor that directly affects the rheology. Examples for relevant disciplines include drug delivery in biology (Vafai 2010), studies of human skin behavior relevant for cosmetic and medical sectors (Elkhyat et al 2001), creation of self-cleaning and fluid repelling materials relevant for textile industry (Li et al 2017) and oil recovery (Kovscek et al 1993) and carbon dioxide sequestration (Krevor et al 2015) in geophysics (Blunt 2017; Marle 1981) All of these examples, dealing with different kinds of porous media, will benefit from a better understanding of two-phase flow under different wetting conditions. After the transient flow mechanisms have surpassed, steady state sets in, which is the regime in which the rheology of two-phase flow under different wetting conditions is examined in this work
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