Litcius/Paper detail

The origin of hysteresis and memory of two-phase flow in disordered media

Ran Holtzman, Marco Dentz, Ramon Planet, Jordi Ortı́n

2020Communications Physics21 citationsDOIOpen Access PDF

Abstract

Abstract Cyclic fluid-fluid displacements in disordered media feature hysteresis, multivaluedness, and memory properties in the pressure-saturation relationship. Quantitative understanding of the underlying pore-scale mechanisms and their extrapolation across scales constitutes a major challenge. Here we find that the capillary action of a single constriction in the fluid passage contains the key features of hysteresis. This insight forms the building block for an ab initio model that provides the quantitative link between the microscopic capillary physics, spatially-extended collective events (Haines jumps) and large-scale hysteresis. The mechanisms identified here apply to a broad range of problems in hydrology, geophysics and engineering.

Topics & Concepts

ExtrapolationHysteresisStatistical physicsCapillary pressureCapillary actionPorous mediumFlow (mathematics)Phase (matter)Materials sciencePhysicsCondensed matter physicsMechanicsGeologyThermodynamicsMathematicsGeotechnical engineeringPorosityStatisticsQuantum mechanicsTheoretical and Computational PhysicsAdvanced Mathematical Modeling in EngineeringNMR spectroscopy and applications