Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-Bisulphite

Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-Bisulphite

The mechanism of dissolution of iron species contained in kaolinitic clay from the Guadalupe mine in Huayacocotla ejido El Carbonero, Veracruz, Mexico was investigated, using the synergistic effect of bisulfite as the reducing agent and citrate as complexing agent. The clay was dry screened, yieldin...

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Main Authors: Patricia N. Olvera Venegas, Leticia E. Hernández Cruz, Gretchen T. Lapidus
Format: Article
Language:English
Published: Universidad Autonoma de Yucatan 2014-08-01
Series:Mexican Journal of Materials Science and Engineering
Subjects:
Leaching mechanism
ilmenite; magnetite; greigite; citrate; bisulfite.
Ilmenite
magmatite
greigite
citrate
bisulfite
Online Access:http://intranet.matematicas.uady.mx/mjmatse/volumenes/volumen1/2/MJMATSE_1_2_30.pdf
id doaj-b2641542775c45079da3f534fa530f63
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spelling doaj-b2641542775c45079da3f534fa530f632020-11-24T23:36:59ZengUniversidad Autonoma de YucatanMexican Journal of Materials Science and Engineering2395-96302014-08-01123024Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-BisulphitePatricia N. Olvera Venegas0 Leticia E. Hernández Cruz1Gretchen T. Lapidus2Universidad Autónoma del Estado de Hidalgo, Área Académica de Ciencias de la Tierra y MaterialesUniversidad Autónoma del Estado de Hidalgo, Área Académica de Ciencias de la Tierra y MaterialesUniversidad Autónoma Metropolitana, Unidad Iztapalapa, Ing. de Procesos e HidráulicaThe mechanism of dissolution of iron species contained in kaolinitic clay from the Guadalupe mine in Huayacocotla ejido El Carbonero, Veracruz, Mexico was investigated, using the synergistic effect of bisulfite as the reducing agent and citrate as complexing agent. The clay was dry screened, yielding particle sizes of -100 +250 mesh. Kaolin was characterized by X-ray diffraction (DRX) and atomic absorption (AA), identifying magnetite, ilmenite and greigite as the prevalent iron phases. Dissolution experiments were carried out in solutions of 0.5 M of sodium thiosulfate, 0.9 M of citric acid, at 90 ° C and pH 3, controlling the latter parameter with sodium hydroxide. The reactions involved in the dissolution of the different iron species were proposed. Since the iron in magnetite and greigite is present as Fe(III), a reducing agent (bisulfite) is required to liberate it from these phases, whereas in ilmenite, iron is present as Fe(II) and is dissolved employing a complexing ligand.http://intranet.matematicas.uady.mx/mjmatse/volumenes/volumen1/2/MJMATSE_1_2_30.pdfLeaching mechanismilmenite; magnetite; greigite; citrate; bisulfite.Ilmenitemagmatitegreigitecitratebisulfite
collection DOAJ
language English
format Article
sources DOAJ
author Patricia N. Olvera Venegas
Leticia E. Hernández Cruz
Gretchen T. Lapidus
spellingShingle Patricia N. Olvera Venegas
Leticia E. Hernández Cruz
Gretchen T. Lapidus
Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-Bisulphite
Mexican Journal of Materials Science and Engineering
Leaching mechanism
ilmenite; magnetite; greigite; citrate; bisulfite.
Ilmenite
magmatite
greigite
citrate
bisulfite
author_facet Patricia N. Olvera Venegas
Leticia E. Hernández Cruz
Gretchen T. Lapidus
author_sort Patricia N. Olvera Venegas
title Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-Bisulphite
title_short Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-Bisulphite
title_full Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-Bisulphite
title_fullStr Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-Bisulphite
title_full_unstemmed Mechanism of dissolution of different species of iron contained in kaolin Bycitrate-Bisulphite
title_sort mechanism of dissolution of different species of iron contained in kaolin bycitrate-bisulphite
publisher Universidad Autonoma de Yucatan
series Mexican Journal of Materials Science and Engineering
issn 2395-9630
publishDate 2014-08-01
description The mechanism of dissolution of iron species contained in kaolinitic clay from the Guadalupe mine in Huayacocotla ejido El Carbonero, Veracruz, Mexico was investigated, using the synergistic effect of bisulfite as the reducing agent and citrate as complexing agent. The clay was dry screened, yielding particle sizes of -100 +250 mesh. Kaolin was characterized by X-ray diffraction (DRX) and atomic absorption (AA), identifying magnetite, ilmenite and greigite as the prevalent iron phases. Dissolution experiments were carried out in solutions of 0.5 M of sodium thiosulfate, 0.9 M of citric acid, at 90 ° C and pH 3, controlling the latter parameter with sodium hydroxide. The reactions involved in the dissolution of the different iron species were proposed. Since the iron in magnetite and greigite is present as Fe(III), a reducing agent (bisulfite) is required to liberate it from these phases, whereas in ilmenite, iron is present as Fe(II) and is dissolved employing a complexing ligand.
topic Leaching mechanism
ilmenite; magnetite; greigite; citrate; bisulfite.
Ilmenite
magmatite
greigite
citrate
bisulfite
url http://intranet.matematicas.uady.mx/mjmatse/volumenes/volumen1/2/MJMATSE_1_2_30.pdf
work_keys_str_mv AT patricianolveravenegas mechanismofdissolutionofdifferentspeciesofironcontainedinkaolinbycitratebisulphite
AT leticiaehernandezcruz mechanismofdissolutionofdifferentspeciesofironcontainedinkaolinbycitratebisulphite
AT gretchentlapidus mechanismofdissolutionofdifferentspeciesofironcontainedinkaolinbycitratebisulphite
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