Unified Flow Rule of Undeveloped and Fully Developed Dense Granular Flows Down Rough Inclines

Abstract

We report on chute measurements of the free-surface velocity v in dense flows of spheres and diverse sands and spheres-sand mixtures down rough inclines. These and previous measurements are inconsistent with standard flow rules, in which the Froude number v/gh scales linearly with h/hs or (θ/μr)2h/hs, where μr is the dynamic friction coefficient, h the flow thickness, and hs(θ) its smallest value that permits a steady, uniform dense flow state at a given inclination angle θ. This is because the characteristic length L a flow needs to fully develop can exceed the chute or travel length l and because neither rule is universal for fully developed flows across granular materials. We use a dimensional analysis motivated by a recent unification of sediment transport to derive a flow rule that solves both problems in accordance with our and previous measurements: v=v∞[1-(-l/L)]1/2, with v∞μr3/2[(θ-μr)h]4/3 and Lμr3[(θ-μr)h]5/3h.