Nothing Special   »   [go: up one dir, main page]

Francia et al., 2021 - Google Patents

From quasi-static to intermediate regimes in shear cell devices: Theory and characterisation

Francia et al., 2021

View PDF
Document ID
3771409513241986252
Author
Francia V
Yahia L
Ocone R
Ozel A
Publication year
Publication venue
KONA Powder and Particle Journal

External Links

Snippet

The design of new technology for processing and manufacturing particulate products requires understanding granular rheology over a broad range of conditions. Powders display a complex behaviour due to their ability to rearrange under stress, and as a result …
Continue reading at www.jstage.jst.go.jp (PDF) (other versions)

Similar Documents

Publication Publication Date Title
Sundaresan et al. Toward constitutive models for momentum, species, and energy transport in gas–particle flows
Qi et al. Numerical study of particle mixing in a lab-scale screw mixer using the discrete element method
Li et al. Open-source MFIX-DEM software for gas-solids flows: Part II—Validation studies
Francia et al. From quasi-static to intermediate regimes in shear cell devices: Theory and characterisation
Li et al. The angle of repose and size segregation of iron ore granules: DEM analysis and experimental investigation
Zhang et al. Numerical investigation of the location of maximum erosive wear damage in elbow: Effect of slurry velocity, bend orientation and angle of elbow
Reuge et al. Multifluid Eulerian modeling of dense gas–solids fluidized bed hydrodynamics: influence of the dissipation parameters
May et al. Shear-driven size segregation of granular materials: modeling and experiment
Fang et al. Computational fluid dynamics-discrete element method investigation of solid mixing characteristics in an internally circulating fluidized bed
Ji et al. Modeling the multiphase flow in hydrocyclones using the coarse-grained volume of fluid—discrete element method and mixture-discrete element method approaches
Moghaddam et al. Rigid body dynamics algorithm for modeling random packing structures of nonspherical and nonconvex pellets
Marigo Discrete element method modelling of complex granular motion in mixing vessels: evaluation and validation
Wang et al. Hydro-mechanical analysis of calcareous sand with a new shape-dependent fluid-particle drag model integrated into CFD-DEM coupling program
Tang et al. Experimental study and DEM numerical simulation of dry/wet particle flow behaviors in a spouted bed
Santos et al. Fluid dynamic behavior in a spouted bed with binary mixtures differing in size
Vidyapati et al. Experimental and computational studies of dense granular flow: Transition from quasi-static to intermediate regime in a Couette shear device
Khalilitehrani et al. Modeling dilute and dense granular flows in a high shear granulator
Ahmadian et al. Analysis of granule breakage in a rotary mixing drum: experimental study and distinct element analysis
Wiącek et al. Effect of particle polydispersity on micromechanical properties and energy dissipation in granular mixtures
He et al. Solids motion and segregation of binary mixtures in a rotating drum mixer
Jin et al. Modeling on high-flux circulating fluidized bed with Geldart group B particles by kinetic theory of granular flow
Xiaoxing et al. The mesoscopic structures of dense granular materials
Cocco et al. Fluidized Bed Scale-Up for Sustainability Challenges. 1. Tomorrow’s Tools
Marinack Jr et al. Three-dimensional physics-based cellular automata model for granular shear flow
Wang et al. Microdynamic analysis of solid flow in a shear cell