Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis

Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis

In the leaching process of chromium-containing precursor hexavalent chromium may form, which provokes damages to environment and human health. As a solution, leaching the chromium containing precursor with sulphuric acid to get chromium ions into solution without forming hexavalent ions has been pro...

Full description

Bibliographic Details
Main Authors: Mehmet Feryat Gülcan, Billur Deniz Karahan, Sebahattin Gürmen
Format: Article
Language:English
Published: Elsevier 2020-11-01
Series:Journal of Materials Research and Technology
Subjects:
Leach
Ferro chromium alloy
Rotary evaporator
Taguchi method
Kinetic study
Online Access:http://www.sciencedirect.com/science/article/pii/S2238785420318536
id doaj-cdd29461305d4370b7d9c14bd10f98ba
record_format Article
spelling doaj-cdd29461305d4370b7d9c14bd10f98ba2021-01-02T05:11:56ZengElsevierJournal of Materials Research and Technology2238-78542020-11-01961410314115Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysisMehmet Feryat Gülcan0Billur Deniz Karahan1Sebahattin Gürmen2Istanbul Technical University, Department of Metallurgical and Materials Engineering, 34469 Maslak-Istanbul, TurkeyIstanbul Medipol University, Department of Civil Engineering, 34810 Beykoz-Istanbul, Turkey; Istanbul Medipol University, Research Institute for Health Sciences and Technologies (SABITA), 34810 Beykoz-Istanbul, Turkey; Corresponding author.Istanbul Technical University, Department of Metallurgical and Materials Engineering, 34469 Maslak-Istanbul, TurkeyIn the leaching process of chromium-containing precursor hexavalent chromium may form, which provokes damages to environment and human health. As a solution, leaching the chromium containing precursor with sulphuric acid to get chromium ions into solution without forming hexavalent ions has been proposed. These experiments are mostly carried out at high temperatures to increase the yield, while the detrimental effect of evaporation is still under investigation. In this study, indigenous ferro chromium alloys (>60 wt% Cr) have been leached with sulphuric acid by using a rotary evaporator where no evaporation occurs. The acid molarity, solid:liquid ratio, temperature and rotation rate of the rotary flask have been optimized using Taguchi method to maximize Fe and Cr dissolutions’ efficiencies. Leaching in 5 M sulphuric acid solution with 1:50 solid:liquid ratio, at 90° C, 30 rpm for 150 min could sustain yields around 73% and 56% for Cr and Fe recoveries, respectively. Within the scope of this research, the effects of the mentioned parameters on the leaching efficiency have been also analyzed via the ANOVA method. The most effective parameters for Cr and Fe have been found as temperature and solid:liquid ratio, respectively. Finally, the kinetic has been also studied and universal equations have been successfully tested. −ln(1 − x) = k * tn gives the best fitting result (where n = 0.4 and 0.6 are calculated for Fe and Cr, respectively). These values indicate that the leaching reaction follows the mixed kinetic control model. The activation energies are calculated as 46.12 kJ/mol for Fe and 142.8 kJ/mol for Cr.http://www.sciencedirect.com/science/article/pii/S2238785420318536LeachFerro chromium alloyRotary evaporatorTaguchi methodKinetic study
collection DOAJ
language English
format Article
sources DOAJ
author Mehmet Feryat Gülcan
Billur Deniz Karahan
Sebahattin Gürmen
spellingShingle Mehmet Feryat Gülcan
Billur Deniz Karahan
Sebahattin Gürmen
Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis
Journal of Materials Research and Technology
Leach
Ferro chromium alloy
Rotary evaporator
Taguchi method
Kinetic study
author_facet Mehmet Feryat Gülcan
Billur Deniz Karahan
Sebahattin Gürmen
author_sort Mehmet Feryat Gülcan
title Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis
title_short Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis
title_full Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis
title_fullStr Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis
title_full_unstemmed Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis
title_sort leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis
publisher Elsevier
series Journal of Materials Research and Technology
issn 2238-7854
publishDate 2020-11-01
description In the leaching process of chromium-containing precursor hexavalent chromium may form, which provokes damages to environment and human health. As a solution, leaching the chromium containing precursor with sulphuric acid to get chromium ions into solution without forming hexavalent ions has been proposed. These experiments are mostly carried out at high temperatures to increase the yield, while the detrimental effect of evaporation is still under investigation. In this study, indigenous ferro chromium alloys (>60 wt% Cr) have been leached with sulphuric acid by using a rotary evaporator where no evaporation occurs. The acid molarity, solid:liquid ratio, temperature and rotation rate of the rotary flask have been optimized using Taguchi method to maximize Fe and Cr dissolutions’ efficiencies. Leaching in 5 M sulphuric acid solution with 1:50 solid:liquid ratio, at 90° C, 30 rpm for 150 min could sustain yields around 73% and 56% for Cr and Fe recoveries, respectively. Within the scope of this research, the effects of the mentioned parameters on the leaching efficiency have been also analyzed via the ANOVA method. The most effective parameters for Cr and Fe have been found as temperature and solid:liquid ratio, respectively. Finally, the kinetic has been also studied and universal equations have been successfully tested. −ln(1 − x) = k * tn gives the best fitting result (where n = 0.4 and 0.6 are calculated for Fe and Cr, respectively). These values indicate that the leaching reaction follows the mixed kinetic control model. The activation energies are calculated as 46.12 kJ/mol for Fe and 142.8 kJ/mol for Cr.
topic Leach
Ferro chromium alloy
Rotary evaporator
Taguchi method
Kinetic study
url http://www.sciencedirect.com/science/article/pii/S2238785420318536
work_keys_str_mv AT mehmetferyatgulcan leachingofironandchromiumfromanindigenousferrochromiumalloyviaarotaryevaporatoroptimumconditionsdeterminationandkineticanalysis
AT billurdenizkarahan leachingofironandchromiumfromanindigenousferrochromiumalloyviaarotaryevaporatoroptimumconditionsdeterminationandkineticanalysis
AT sebahattingurmen leachingofironandchromiumfromanindigenousferrochromiumalloyviaarotaryevaporatoroptimumconditionsdeterminationandkineticanalysis
_version_ 1724359300285988864

Similar Items