Litcius/Paper detail

CFD simulation of flow distribution in the randomly packed bed Dixon ring

Younes Amini, Mohammad Mahdi Shadman, Javad Karimi‐Sabet

2021Separation Science and Technology10 citationsDOI

Abstract

The maldistribution in randomly packed beds with a high diameter ratio is a result of wall-flow formation and channeling. In this study, the thin randomly packed bed (dp/D = 1/8) filled with Dixon ring is simulated with a porous media model. The motivation of our study is to understand the effect of surface tension and liquid inlet velocity on the height of the wall-flow formation. Furthermore, the flow structure in this packed bed was described by numerical simulation. The results show that increasing the liquid inlet velocity and surface tension causes a faster distribution of liquid flow that led to faster formation of wall flow. Increasing the surface tension from 0.05 to 0.07 N/m causes the lower wall-flow formation from 0.19 m to 0.15 m in liquid velocity of 0.015 m/s and 0.09 to 0.06 in liquid velocity of 0.08 m/s. According to the findings, the 30% increasing the surface tension (from 0.07 N/m to 0.085 N/m) led to 30% decreases in height of wall-flow formation in the case of lower liquid velocity (0.015 m/s) and 50% decreases in the height of wall-flow formation in case of higher liquid velocity (0.08 m/s).

Topics & Concepts

Surface tensionInletChemistryFlow (mathematics)Packed bedMechanicsFlow velocityThermodynamicsChromatographyGeologyPhysicsGeomorphologyHeat and Mass Transfer in Porous MediaLattice Boltzmann Simulation StudiesGroundwater flow and contamination studies