0000000001037630

AUTHOR

A. Shakib-manesh

showing 3 related works from this author

Fouling dynamics in suspension flows

2002

A particle suspension flowing in a channel in which fouling layers are allowed to form on the channel walls is investigated by numerical simulation. A two-dimensional phase diagram with at least four different behaviors is constructed. The fouling is modeled by attachment during collision with the deposits and by detachment caused by large enough hydrodynamic drag. For fixed total number of particles and small Reynolds numbers, the relevant parameters governing the fouling dynamics are the solid volume fraction of the suspension and the detachment drag force threshold. Below a critical curve in this 2D phase space only transient fouling takes place when the suspension is accelerated from re…

Materials scienceFoulingBiophysicsReynolds numberNanotechnologySurfaces and InterfacesGeneral ChemistryMechanicsSuspension (chemistry)symbols.namesakeDragsymbolsDeposition (phase transition)General Materials ScienceSaturation (chemistry)Pressure gradientBiotechnologyNeckingEuropean Physical Journal E: Soft Matter
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Simulations of non-spherical particles suspended in a shear flow

2000

The lattice-Boltzmann method was used to investigate the effects of the shape and concentration of the particles on the rheological properties of non-Brownian suspensions for non-zero Reynolds numbers. Several case studies were analyzed and the methods used were found to give accurate predictions for these systems. The viscosity of suspensions of both spherical and non-spherical particles was determined as functions of shear rate and concentration of particles. It was shown that, for high shear rates, shear thickening appears. This phenomenon is particularly pronounced for particles of irregular shape.

DilatantMaterials scienceLattice Boltzmann methodsGeneral Physics and AstronomyThermodynamicsReynolds numberMechanicsShear ratePhysics::Fluid DynamicsCondensed Matter::Soft Condensed Mattersymbols.namesakeShear (geology)RheologyHardware and ArchitecturesymbolsShear flowBrownian motion
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Clustering and viscosity in a shear flow of a particulate suspension

2003

A shear flow of particulate suspension is analyzed for the qualitative effect of particle clustering on viscosity using a simple kinetic clustering model and direct numerical simulations. The clusters formed in a Couette flow can be divided into rotating chainlike clusters and layers of particles at the channel walls. The size distribution of the rotating clusters is scale invariant in the small-cluster regime and decreases rapidly above a characteristic length scale that diverges at a jamming transition. The behavior of the suspension can qualitatively be divided into three regimes. For particle Reynolds number Re(p) less than or approximately equal 0.1, viscosity is controlled by the char…

PhysicsDilatantReynolds numberThermodynamicsshearShear rateCondensed Matter::Soft Condensed MatterPhysics::Fluid DynamicsViscositysymbols.namesakeviscosityShear stresssymbolssuspensionsShear flowSuspension (vehicle)Couette flowflow shearshear properties
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