A Hydrodynamic model for a dynamical jammed-to-flowing transition in gravity driven granular media

Abstract

Granular material on an inclined plane will flow like a fluid if the angle θ the plane makes with the horizontal is large enough. We employ a modification of a hydrodynamic model introduced previously to describe Couette flow experiments to describe chute flow down a plane. In this geometry, our model predicts a jammed-to-flowing transition as θ is increased even though it does not include solid friction, which might seem necessary to stabilize a state without flow. The transition is driven by coupling between mean and fluctuating velocity. In agreement with experiments and simulations, it predicts flow for layers with a thickness H larger than a critical value H stop(θ) and absence of flow for H<H stop(θ).

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