Propagating terrace in a two-tubes model of gravitational fingering

TL;DR

This paper analyzes a semi-discrete model of gravitational fingering in porous media, revealing a propagating terrace structure formed by two traveling waves, and demonstrates its existence under specific parameters.

Contribution

It introduces a simplified two-tube model for gravitational fingering and proves the existence of a propagating terrace solution using geometric singular perturbation theory.

Findings

Identification of a terrace structure composed of two traveling waves.

Existence proof of the propagating terrace for small tube distances.

Mechanism showing how transversal convection slows finger growth.

Abstract

We study a semi-discrete model for the two-dimensional incompressible porous medium (IPM) equation describing gravitational fingering phenomenon. The model consists of a system of advection-reaction-diffusion equations on concentration, velocity and pressure, describing motion of miscible liquids under the Darcy's law in two vertical tubes (real lines) and interflow between them. Our analysis reveals the structure of gravitational fingers in this simple setting - the mixing zone consists of space-time regions of constant intermediate concentrations and the profile of propagation is characterized by two consecutive traveling waves which we call a terrace. We prove the existence of such a propagating terrace for the parameters corresponding to small distances between the tubes. This solution shows the possible mechanism of slowing down the fingers' growth due to convection in the transversal direction. The main tool in the proof is a reduction to pressure-free transverse flow equilibrium (TFE) model using geometrical singular perturbation theory and the persistence of stable and unstable manifolds under small perturbations.