Rapid flow of dry granular materials down inclined chutes impinging on rigid walls
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Publication:3532057
DOI10.1063/1.2726885zbMath1146.76507OpenAlexW2034656122MaRDI QIDQ3532057
Kolumban Hutter, Rolf Katzenbach, Shih-Chang Tai, Shiva P. Pudasaini, Yongqi Wang, S. S. Hsiau
Publication date: 3 November 2008
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/72f3e81b8c7b6351b5633d376b16ff53022e1dbd
Related Items (10)
Investigation of influence of an obstacle on granular flows by virtue of a depth-integrated theory ⋮ Runout and deflection of granular flow past an array of obstacles on a slope ⋮ Avalanching granular flows down curved and twisted channels: Theoretical and experimental results ⋮ A focused view of the behavior of granular flows down a confined inclined chute into the horizontal run-out zone ⋮ Numerical investigation of reverse segregation in debris flows by DEM ⋮ Flow-obstacle interaction in rapid granular avalanches: DEM simulation and comparison with experiment ⋮ A rapid granular chute avalanche impinging on a small fixed obstacle: DEM modeling, experimental validation and exploration of granular stress ⋮ Channel flow simulation of a mixture with a full-dimensional generalized quasi two-phase model ⋮ Subcritical and supercritical granular flow around an obstacle on a rough inclined plane ⋮ An alternative depth-integrated formulation for granular avalanches over temporally varying topography with small curvature
Cites Work
- The dynamics of avalanches of granular materials from initiation to runout. I: Analysis
- A model of granular flows over an erodible surface
- Velocity measurements in dry granular avalanches using particle image velocimetry technique and comparison with theoretical predictions
- The motion of a finite mass of granular material down a rough incline
- Gravity-driven free surface flow of granular avalanches over complex basal topography
- Rapid shear flows of dry granular masses down curved and twisted channels
- The Savage-Hutter theory: A system of partial differential equations for avalanche flows of snow, debris, and mud
- The Savage–Hutter avalanche model: how far can it be pushed?
- Rapid motions of free-surface avalanches down curved and twisted channels and their numerical simulation
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