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Journal Articles ESAIM: Mathematical Modelling and Numerical Analysis Year : 2021

Explicit solutions to a free interface model for the static/flowing transition in thin granular flows

Abstract

This work is devoted to an analytical description of the dynamics of the static/flowing interface in thin dry granular flows. Our starting point is the asymptotic model derived by Bouchut et al. (2016) from a free surface incompressible model with viscoplastic rheology including a Drucker--Prager yield stress. This asymptotic model is based on the thin-layer approximation (the flow is thin in the direction normal to the topography compared to its down-slope extension), but the equations are not depth-averaged. In addition to the velocity, the model includes a free surface at the top of the flow and a free time-dependent static/flowing interface at the bottom. In the present work, we simplify this asymptotic model by decoupling the space coordinates, and keeping only the dependence on time and on the normal space coordinate $Z$. We introduce a time- and $Z$-dependent source term, assumed here to be given, which represents the opposite of the net force acting on the flowing material, including gravity, pressure gradient, and internal friction. We prove several properties of the resulting simplified model that has a time- and $Z$-dependent velocity and a time-dependent static/flowing interface as unknowns. The crucial advantage of this simplified model is that it can provide explicit solutions in the inviscid case, for different shapes of the source term. These explicit inviscid solutions exhibit a rich behaviour and qualitatively reproduce some physical features observed in granular flows.
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Dates and versions

hal-01180686 , version 1 (27-07-2015)
hal-01180686 , version 2 (15-08-2016)
hal-01180686 , version 3 (13-04-2018)
hal-01180686 , version 4 (22-06-2020)

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Cite

Christelle Lusso, François Bouchut, Alexandre Ern, Anne Mangeney. Explicit solutions to a free interface model for the static/flowing transition in thin granular flows. ESAIM: Mathematical Modelling and Numerical Analysis, 2021, 55, pp.S369-S395. ⟨10.1051/m2an/2020042⟩. ⟨hal-01180686v4⟩
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