Powder Technology, Vol.199, No.3, 238-247, 2010
Simulations of flow behavior of gas and particles in spouted bed with a porous draft tube
Flow behaviors of particles in a two-dimensional spouted bed with a porous draft plates are studied using a fluid dynamic computation with kinetic-frictional stresses models. Gas flow through the porous draft tube is simulated by Brinkman-Darcy-Forchheimer formulation. The distributions of concentration and velocities of particles are predicted. Simulated results predict the solid circulation rate and gas flux rate measured in the spouted bed with a porous draft tube (Ishikura et al., 2003). The solid circulation rate in the spouted bed with a porous draft tube is larger than that with a non-porous draft tube. The predicted bed pressure drop with the porous draft tube is high in comparison to the spouted bed with non-porous draft tube. The effect of the porosity of the porous draft tube on distributions of gas flux rate through the annulus and solid circulation rate are discussed. (C) 2010 Elsevier B.V. All rights reserved.
Keywords:Spouted bed;Porous draft tube;Kinetic-frictional stresses model;Simulations;Solid circulation