Self‐Regulation Mechanisms in Porous Media: The Origin of the Diversity of Fluid Displacement Patterns

Abstract

AbstractDuring two‐phase fluid displacement in a porous medium, self‐regulation mechanisms provide negative feedback to approach a state of minimum operating power. The versatility of these self‐regulation mechanisms results in a large diversity of fluid displacement patterns. For example, the introduction of a highly tortuous displacement channel, the appearance of the retention and development regions of the displaced phase, and the expansion of the displacement path area of the invading phase are the macroscopic responses of the two‐phase flow system to the self‐regulation mechanisms under different constraints. These new findings provide compelling physical explanations for the underlying mechanisms governing fluid displacement pattern transitions and the influence of inertial effects on the displacement patterns.