Affiliation:
1. Department of Mechanical Engineering, Islamic Azad University, Ahvaz Branch, Ahvaz 37333-61349, Iran
Abstract
Gas-solid
fluidized bed dryers are used in a wide range of
industrial applications. With applying
computational fluid dynamic (CFD) techniques,
hydrodynamics of a two-dimensional nonreactive
gas-solid fluidized bed dryer was investigated.
A multifluid Eulerian model incorporating the
kinetic theory for solid particles was applied
to simulate the unsteady state behavior of this
dryer and momentum exchange coefficients were
calculated by using the
Syamlal-O'Brien drag functions. A
suitable numerical method that employed finite
volume method was used to discretize the
equations. Simulation results also indicated
that small bubbles were produced at the bottom
of the bed. These bubbles collided with each
other as they moved upwards forming larger
bubbles. Also, solid particles diameter and
superficial gas velocity effect on hydrodynamics
were studied. Simulation results were compared
with the experimental data in order to validate
the CFD model. Pressure drops and bed expansion
ratio as well as the qualitative gas-solid flow
patterns predicted by the simulations were in
good agreement with experimental measurements at
superficial gas velocities higher than the
minimum fluidization velocity. Furthermore, this
comparison showed that the model can predict
hydrodynamic behavior of gas solid fluidized bed
reasonably well.
Funder
Amirkabir University of Technology
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering
Cited by
23 articles.
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