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Literature DB >> 12570427

Granular avalanches in fluids.

Sylvain Courrech Du Pont¹, Philippe Gondret, Bernard Perrin, Marc Rabaud.

Abstract

Three regimes of granular avalanches in fluids are put in light depending on the Stokes number St which prescribes the relative importance of grain inertia and fluid viscous effects and on the grain/fluid density ratio r. In gas (r>>1 and St>1, e.g., the dry case), the amplitude and time duration of avalanches do not depend on any fluid effect. In liquids (r approximately 1), for decreasing St, the amplitude decreases and the time duration increases, exploring an inertial regime and a viscous regime. These three regimes are described by the analysis of the elementary motion of one grain.

Entities: Disease

Year: 2003 PMID： 12570427 DOI： 10.1103/PhysRevLett.90.044301

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

11 in total

Granular avalanches in fluids.

1. On dense granular flows.

2. Rheology of sediment transported by a laminar flow.

3. Stability limit of a granular monolayer.

4. Numerical simulation of subaqueous chute flows of granular materials.

5. Shock wave due to the short-period impact in one-dimensional plasticity bead chain.

6. Friction law and hysteresis in granular materials.

7. Revealing the frictional transition in shear-thickening suspensions.

8. A conveyor belt experimental setup to study the internal dynamics of granular avalanches.

9. Meandering instability of air flow in a granular bed: self-similarity and fluid-solid duality.

10. River-bed armouring as a granular segregation phenomenon.