Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation

Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation

Abstract The Direct Reduction (DR) process has been growing worldwide, and there are strong context suggestions that it will grow even more. One of these factors is the environmental pressure that occurs worldwide, and there are already projects to migrate Blast Furnace route steel plants to the Direct Reduction (DR) route, due to its smaller carbon footprint. Considering the importance of this process and the challenges of carrying out experimental tests on a pilot scale, an adequate way to evaluate the process and its impacts is through numerical simulations. There are different techniques applied to models that describe the counter-current reactor in the DR process, but none of them account for the clustering phenomenon. Clustering occurs because of the sintering of the metallic iron on the surface of the pellets in such a way that they attach to each other, forming clusters that hinder the gas flow through the shaft. The present study attempted to adapt a numerical model of a DR process to account for the effect of the cluster formation. Some clustering index equations from literature and some developed as part of this study were used and tested in the model, as a function of temperature, by varying the solid volume fraction in the control unit. The equation that resulted in the adjusted output closest to the current empirical value was implemented in the model and proved to be successful.

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Main Authors: Alencar,Jean Philippe Santos Gherardi de, Pereira,Bruno Amaral, Castro,José Adilson de, Resende,Valdirene Gonzaga de, Vasconcelos,Wander Luiz
Format: Digital revista
Language:English
Published: Fundação Gorceix 2021
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S2448-167X2021000400451
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spelling oai:scielo:S2448-167X20210004004512021-09-16Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulationAlencar,Jean Philippe Santos Gherardi dePereira,Bruno AmaralCastro,José Adilson deResende,Valdirene Gonzaga deVasconcelos,Wander Luiz iron ore direct reduction simulation clustering Abstract The Direct Reduction (DR) process has been growing worldwide, and there are strong context suggestions that it will grow even more. One of these factors is the environmental pressure that occurs worldwide, and there are already projects to migrate Blast Furnace route steel plants to the Direct Reduction (DR) route, due to its smaller carbon footprint. Considering the importance of this process and the challenges of carrying out experimental tests on a pilot scale, an adequate way to evaluate the process and its impacts is through numerical simulations. There are different techniques applied to models that describe the counter-current reactor in the DR process, but none of them account for the clustering phenomenon. Clustering occurs because of the sintering of the metallic iron on the surface of the pellets in such a way that they attach to each other, forming clusters that hinder the gas flow through the shaft. The present study attempted to adapt a numerical model of a DR process to account for the effect of the cluster formation. Some clustering index equations from literature and some developed as part of this study were used and tested in the model, as a function of temperature, by varying the solid volume fraction in the control unit. The equation that resulted in the adjusted output closest to the current empirical value was implemented in the model and proved to be successful.info:eu-repo/semantics/openAccessFundação GorceixREM - International Engineering Journal v.74 n.4 20212021-12-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S2448-167X2021000400451en10.1590/0370-44672021740037
institution SCIELO
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country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Alencar,Jean Philippe Santos Gherardi de
Pereira,Bruno Amaral
Castro,José Adilson de
Resende,Valdirene Gonzaga de
Vasconcelos,Wander Luiz
spellingShingle Alencar,Jean Philippe Santos Gherardi de
Pereira,Bruno Amaral
Castro,José Adilson de
Resende,Valdirene Gonzaga de
Vasconcelos,Wander Luiz
Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation
author_facet Alencar,Jean Philippe Santos Gherardi de
Pereira,Bruno Amaral
Castro,José Adilson de
Resende,Valdirene Gonzaga de
Vasconcelos,Wander Luiz
author_sort Alencar,Jean Philippe Santos Gherardi de
title Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation
title_short Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation
title_full Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation
title_fullStr Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation
title_full_unstemmed Evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation
title_sort evaluation of the impact of cluster formation in a direct reduction shaft furnace through numerical simulation
description Abstract The Direct Reduction (DR) process has been growing worldwide, and there are strong context suggestions that it will grow even more. One of these factors is the environmental pressure that occurs worldwide, and there are already projects to migrate Blast Furnace route steel plants to the Direct Reduction (DR) route, due to its smaller carbon footprint. Considering the importance of this process and the challenges of carrying out experimental tests on a pilot scale, an adequate way to evaluate the process and its impacts is through numerical simulations. There are different techniques applied to models that describe the counter-current reactor in the DR process, but none of them account for the clustering phenomenon. Clustering occurs because of the sintering of the metallic iron on the surface of the pellets in such a way that they attach to each other, forming clusters that hinder the gas flow through the shaft. The present study attempted to adapt a numerical model of a DR process to account for the effect of the cluster formation. Some clustering index equations from literature and some developed as part of this study were used and tested in the model, as a function of temperature, by varying the solid volume fraction in the control unit. The equation that resulted in the adjusted output closest to the current empirical value was implemented in the model and proved to be successful.
publisher Fundação Gorceix
publishDate 2021
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S2448-167X2021000400451
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AT pereirabrunoamaral evaluationoftheimpactofclusterformationinadirectreductionshaftfurnacethroughnumericalsimulation
AT castrojoseadilsonde evaluationoftheimpactofclusterformationinadirectreductionshaftfurnacethroughnumericalsimulation
AT resendevaldirenegonzagade evaluationoftheimpactofclusterformationinadirectreductionshaftfurnacethroughnumericalsimulation
AT vasconceloswanderluiz evaluationoftheimpactofclusterformationinadirectreductionshaftfurnacethroughnumericalsimulation
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