Experimental study of gravitation effects in the flow of a particle-laden thin film on an inclined plane
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Publication:5304732
DOI10.1063/1.3208076zbMath1183.76564OpenAlexW2056245330MaRDI QIDQ5304732
Chi Wey, Thomas III Ward, A. E. Hosoi, Robert Glidden, Andrea L. Bertozzi
Publication date: 18 March 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: http://hdl.handle.net/1721.1/78571
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Surface tension effects for particle settling and resuspension in viscous thin films ⋮ Rarefaction-singular shock dynamics for conserved volume gravity driven particle-laden thin film ⋮ Behavior of a particle-laden flow in a spiral channel ⋮ Self-similarity in particle accumulation on the advancing meniscus ⋮ Dynamics of particle settling and resuspension in viscous liquid films ⋮ The dam-break problem for concentrated suspensions of neutrally buoyant particles ⋮ A numerical scheme for particle-laden thin film flow in two dimensions ⋮ Self-similarity in particle-laden flows at constant volume ⋮ Collapse of a neutrally buoyant suspension column: from Newtonian to apparent non-Newtonian flow regimes ⋮ Fast equilibration dynamics of viscous particle-laden flow in an inclined channel
Cites Work
- Shock Solutions for Particle-Laden Thin Films
- Scaling laws in granular flows down rough inclined planes
- Submarine granular flows down inclined planes
- Pressure-driven flow of a suspension: Buoyancy effects
- Enhanced sedimentation in settling tanks with inclined walls
- Quantitative modelling of granular suspension flows
- Migration of buoyant particles in low-Reynolds-number pressure-driven flows
- A numerical and experimental study of batch sedimentation and viscous resuspension
- Experimental study of rivulet formation on an inclined plate by fluorescent imaging
- Particle migration and free-surface topography in inclined plane flow of a suspension
