From continuum analytical description to discrete numerical modelling of localized fluidization in granular media

Grenoble Institut of Technology (G-INP), University Grenoble Alpes (UGA), 3SR, F-38000 Grenoble, France

^* e-mail: eduard.puigmontella@3sr-grenoble.fr
^** e-mail: bruno.chareyre@3sr-grenoble.fr
^*** e-mail: luc.sibille@ujf-grenoble.fr

Published online: 30 June 2017

Abstract

We present analytical and numerical results on localized fluidization within a granular layer subjected to a local injection of fluid. As the injection rate increases the three different regimes previously reported in the literature are recovered: homogeneous expansion of the bed, fluidized cavity in which fluidization starts developing above the injection area, and finally the chimney of fluidized grains when the fluidization zone reaches the free surface. The analytical approach is at the continuum scale, based on Darcy’s law and Therzaghi’s effective stress principle. It provides a good description of the phenomenon as long as the porosity of the granular assembly remains relatively homogeneous. The numerical approach is at the particle scale based on the coupled DEM-PFV method. It tackles the more heterogeneous situations which occur at larger injection rates. A direct link is evidenced between the occurrence of the different regimes of fluidization and the injection aperture. Finally, the merging of chimneys in case of two injection points is investigated.