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The Rayleigh–Taylor instability in a porous medium

Lawrence K. Forbes, Catherine A. Browne, Stephen J. Walters

2021SN Applied Sciences12 citationsDOIOpen Access PDF

Abstract

Abstract The classical Rayleigh–Taylor instability occurs when a heavy fluid overlies a lighter one, and the two fluids are separated by a horizontal interface. The configuration is unstable, and a small perturbation to the interface grows with time. Here, we consider such an arrangement for planar flow, but in a porous medium governed by Darcy’s law. First, the fully saturated situation is considered, where the two horizontal fluids are separated by a sharp interface. A classical linearized theory is reviewed, and the nonlinear model is solved numerically. It is shown that the solution is ultimately limited in time by the formation of a curvature singularity at the interface. A partially saturated Boussinesq theory is then presented, and its linearized approximation predicts a stable interface that merely diffuses. Nonlinear Boussinesq theory, however, allows the growth of drips and bubbles at the interface. These structures develop with no apparent overturning at their heads, unlike the corresponding flow for two free fluids.

Topics & Concepts

InstabilityRayleigh–Taylor instabilityCurvaturePorous mediumMechanicsSingularityNonlinear systemPlanarPhysicsRichtmyer–Meshkov instabilityDarcy's lawClassical mechanicsPerturbation (astronomy)Mathematical analysisPorosityMathematicsGeometryGeologyGeotechnical engineeringComputer scienceQuantum mechanicsComputer graphics (images)Fluid Dynamics and Turbulent FlowsGeological formations and processesParticle Dynamics in Fluid Flows
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