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Main Authors: Gadal, C., Johnson, C. G., Gray, J. M. N. T.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.22665
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author Gadal, C.
Johnson, C. G.
Gray, J. M. N. T.
author_facet Gadal, C.
Johnson, C. G.
Gray, J. M. N. T.
contents Dense granular flows exhibit both surface deformation and secondary flows due to the presence of normal stress differences. Yet, a complete mathematical modelling of these two features is still lacking. This paper focuses on a steady shallow dense flow down an inclined channel of arbitrary cross-section, for which asymptotic solutions are derived by using an expansion based on the flow shallowness combined with a second-order granular rheology. The leading order flow is uniaxial, with a streamwise velocity corresponding to a lateral juxtaposition of Bagnold profiles scaled by the varying flow depth. The correction at first order introduces two counter-rotating vortices in the plane perpendicular to the main flow direction (with downwelling in the centre), and an upward curve of the free surface. These solutions are compared to DEM simulations, which they match quantitatively. This result is then used together with laboratory experiments to infer measurements of the second-normal stress difference in dense dry granular flow.
format Preprint
id arxiv_https___arxiv_org_abs_2506_22665
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Surface curvature and secondary vortices in steady dense shallow granular flows
Gadal, C.
Johnson, C. G.
Gray, J. M. N. T.
Fluid Dynamics
Dense granular flows exhibit both surface deformation and secondary flows due to the presence of normal stress differences. Yet, a complete mathematical modelling of these two features is still lacking. This paper focuses on a steady shallow dense flow down an inclined channel of arbitrary cross-section, for which asymptotic solutions are derived by using an expansion based on the flow shallowness combined with a second-order granular rheology. The leading order flow is uniaxial, with a streamwise velocity corresponding to a lateral juxtaposition of Bagnold profiles scaled by the varying flow depth. The correction at first order introduces two counter-rotating vortices in the plane perpendicular to the main flow direction (with downwelling in the centre), and an upward curve of the free surface. These solutions are compared to DEM simulations, which they match quantitatively. This result is then used together with laboratory experiments to infer measurements of the second-normal stress difference in dense dry granular flow.
title Surface curvature and secondary vortices in steady dense shallow granular flows
topic Fluid Dynamics
url https://arxiv.org/abs/2506.22665