EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BED

EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BED

ABSTRACT The process of solid circulation in an internally circulating fluidized bed (ICFB) having two or more chambers can be developed by applying unequal gas velocities in these chambers. Such a process is beneficial to several applications and provides the means for the energy transfer between the chambers in the ICFB. In this paper, a multi-fluid CFD model incorporating the kinetic theory of granular flow is used to simulate the hydrodynamic characteristics of a binary mixture of particles in an ICFB using ANSYS-Fluent software. The mixture is composed of two particles of different sizes but the same densities. The ICFB has two chambers named the reaction chamber (RC) and the heat exchange chamber (HEC), separated by a vertical central baffle. An increase in the RC gas velocity UR at constant HEC gas velocity UH results in an increase in the circulation rate of the binary mixture. The circulation rate of small particles GBs is found to be higher than that of the big particles GBb. Increasing the slot size causes a decrease in the pressure difference between the chambers and consequently decreasing the solid circulation rate in the ICFB. The mixture circulation rate also decreases when the mixture is richer in GBb particles than in GBs.

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Main Authors: Hassan,M., Lu,H., Liu,G., Wang,S., Rafique,M.
Format: Digital revista
Language:English
Published: Brazilian Society of Chemical Engineering 2018
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322018000401333
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spelling oai:scielo:S0104-663220180004013332019-03-26EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BEDHassan,M.Lu,H.Liu,G.Wang,S.Rafique,M. Simulations Kinetic theory of granular flow CFD Solid circulation rate Pressure difference ABSTRACT The process of solid circulation in an internally circulating fluidized bed (ICFB) having two or more chambers can be developed by applying unequal gas velocities in these chambers. Such a process is beneficial to several applications and provides the means for the energy transfer between the chambers in the ICFB. In this paper, a multi-fluid CFD model incorporating the kinetic theory of granular flow is used to simulate the hydrodynamic characteristics of a binary mixture of particles in an ICFB using ANSYS-Fluent software. The mixture is composed of two particles of different sizes but the same densities. The ICFB has two chambers named the reaction chamber (RC) and the heat exchange chamber (HEC), separated by a vertical central baffle. An increase in the RC gas velocity UR at constant HEC gas velocity UH results in an increase in the circulation rate of the binary mixture. The circulation rate of small particles GBs is found to be higher than that of the big particles GBb. Increasing the slot size causes a decrease in the pressure difference between the chambers and consequently decreasing the solid circulation rate in the ICFB. The mixture circulation rate also decreases when the mixture is richer in GBb particles than in GBs.info:eu-repo/semantics/openAccessBrazilian Society of Chemical EngineeringBrazilian Journal of Chemical Engineering v.35 n.4 20182018-12-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322018000401333en10.1590/0104-6632.20180354s20170083
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countrycode BR
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databasecode rev-scielo-br
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region America del Sur
libraryname SciELO
language English
format Digital
author Hassan,M.
Lu,H.
Liu,G.
Wang,S.
Rafique,M.
spellingShingle Hassan,M.
Lu,H.
Liu,G.
Wang,S.
Rafique,M.
EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BED
author_facet Hassan,M.
Lu,H.
Liu,G.
Wang,S.
Rafique,M.
author_sort Hassan,M.
title EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BED
title_short EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BED
title_full EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BED
title_fullStr EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BED
title_full_unstemmed EULERIAN-EULERIAN SIMULATIONS OF THE HYDRODYNAMICS OF A BINARY MIXTURE IN AN INTERNALLY CIRCULATING FLUIDIZED BED
title_sort eulerian-eulerian simulations of the hydrodynamics of a binary mixture in an internally circulating fluidized bed
description ABSTRACT The process of solid circulation in an internally circulating fluidized bed (ICFB) having two or more chambers can be developed by applying unequal gas velocities in these chambers. Such a process is beneficial to several applications and provides the means for the energy transfer between the chambers in the ICFB. In this paper, a multi-fluid CFD model incorporating the kinetic theory of granular flow is used to simulate the hydrodynamic characteristics of a binary mixture of particles in an ICFB using ANSYS-Fluent software. The mixture is composed of two particles of different sizes but the same densities. The ICFB has two chambers named the reaction chamber (RC) and the heat exchange chamber (HEC), separated by a vertical central baffle. An increase in the RC gas velocity UR at constant HEC gas velocity UH results in an increase in the circulation rate of the binary mixture. The circulation rate of small particles GBs is found to be higher than that of the big particles GBb. Increasing the slot size causes a decrease in the pressure difference between the chambers and consequently decreasing the solid circulation rate in the ICFB. The mixture circulation rate also decreases when the mixture is richer in GBb particles than in GBs.
publisher Brazilian Society of Chemical Engineering
publishDate 2018
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322018000401333
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AT liug eulerianeuleriansimulationsofthehydrodynamicsofabinarymixtureinaninternallycirculatingfluidizedbed
AT wangs eulerianeuleriansimulationsofthehydrodynamicsofabinarymixtureinaninternallycirculatingfluidizedbed
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