Recirculation cells for granular flow in cylindrical rotating tumblers

Abstract: To better understand the velocity field and flowing layer structure, we have performed a detailed discrete element method study of the flow of monodisperse particles in a partially filled three-dimensional cylindrical rotating tumblers. Similar to what occurs near the poles in spherical and conical tumblers, recirculation cells (secondary flows) develop near the flat endwalls of a cylindrical tumbler in which particles near the surface drift axially toward the endwall, while particles deeper in the flowing lay… Show more

“…The dynamics observed in the medium through ( ) can then be viewed as a competition between segregation and recirculation currents. In a recent work, D'Ortona and Thomas have shown a destabilisation of a segregated top layer of large grains due to their large density that produces also a pattern on chute flow and a partial coverage [10]. However, this mechanism is excluded in our experiment where both large and small particles have the same density.…”

Modulated segregation of a bidisperse granular mixture due to recirculation currents

“…The dynamics observed in the medium through ( ) can then be viewed as a competition between segregation and recirculation currents. In a recent work, D'Ortona and Thomas have shown a destabilisation of a segregated top layer of large grains due to their large density that produces also a pattern on chute flow and a partial coverage [10]. However, this mechanism is excluded in our experiment where both large and small particles have the same density.…”

Modulated segregation of a bidisperse granular mixture due to recirculation currents

The unique dynamics of a bed of dry granular material in a vertical cylinder rotating at a constant speed

Particle shape-induced axial segregation of binary mixtures of spheres and ellipsoids in a rotating drum