Stabilization of chromium(VI) by hydroxysulfate green rust in chromium(VI)-contaminated soils
Chromium (Cr)-contaminated soils pose a great environmental risk, with high solubility and persistent leaching of Cr(VI). In this study, hydroxysulfate green rust (GRSO4), with the general formula Fe(II)4Fe(III)2(OH)12SO4·8H2O, was evaluated for its efficiency in Cr(VI) stabilization via Cr(VI) redu...
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| Vydáno v: | Pedosphere Ročník 31; číslo 4; s. 645 - 657 |
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Beijing
Elsevier Ltd
01.08.2021
Elsevier Science Ltd Research Laboratory of Advanced Water and Wastewater Treatment Processes,Department of Applied Chemistry,Faculty of Chemistry,University of Tabriz,Tabriz 51666-16471,Iran%Faculty of Agriculture,Department of Soil Science,University of Tabriz,Tabriz 51666-16471,Iran%Research Laboratory of Advanced Water and Wastewater Treatment Processes,Department of Applied Chemistry,Faculty of Chemistry,University of Tabriz,Tabriz 51666-16471,Iran Department of Environmental Engineering,Gebze Technical University,Gebze 41400,Turkey Faculty of Agriculture,Department of Soil Science,University of Tabriz,Tabriz 51666-16471,Iran |
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| ISSN: | 1002-0160, 2210-5107 |
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| Abstract | Chromium (Cr)-contaminated soils pose a great environmental risk, with high solubility and persistent leaching of Cr(VI). In this study, hydroxysulfate green rust (GRSO4), with the general formula Fe(II)4Fe(III)2(OH)12SO4·8H2O, was evaluated for its efficiency in Cr(VI) stabilization via Cr(VI) reduction to Cr(III) in four representative Cr(VI)-spiked soils. The initial concentrations of phosphate buffer-extractable Cr(VI) (Cr(VI)b) in soils 1, 2, 3, and 4 were 382.4, 575.9, 551.3, and 483.7 mg kg–1, respectively. Reduction of Cr(VI) to Cr(III) by structural Fe(II) (Fe(II)s) in GRSO4 in all studied soils was fast, wherein the application of GRSO4 markedly decreased the amount of Cr(VI)b at the Cr(VI)b/Fe(II)s stoichiometric mole ratio of 0.33. The kinetics of Cr(VI) reduction by GRSO4 could not be determined as this reaction coincided with the release of Cr(VI) from soil during the experiment. The concentration of Cr(VI)b decreased, as the Cr(VI)b/Fe(II)s ratio decreased from 0.46 to 0.20, generally to below 10 mg kg–1. Back-transformation of the generated Cr(III) was examined in the presence of manganese oxide birnessite at the birnessite/initial Cr(III) mole ratio of 4.5. The results of batch tests showed that only 5.2% of the initial Cr(III) was converted to Cr(VI) after two months, while under field capacity moisture conditions, less than 0.05% of the initial Cr(III) was oxidized to Cr(VI) after six months. The results illustrated that remediation of Cr(VI)-contaminated soils would be fast, successful, and irreversible with an appropriate quantity of fresh GRSO4. |
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| AbstractList | Chromium (Cr)-contaminated soils pose a great environmental risk, with high solubility and persistent leaching of Cr(VI). In this study, hydroxysulfate green rust (GRSO4), with the general formula Fe(II)4Fe(III)2(OH)12SO4·8H2O, was evaluated for its efficiency in Cr(VI) stabilization via Cr(VI) reduction to Cr(III) in four representative Cr(VI)-spiked soils. The initial concentrations of phosphate buffer-extractable Cr(VI) (Cr(VI)b) in soils 1, 2, 3, and 4 were 382.4, 575.9, 551.3, and 483.7 mg kg–1, respectively. Reduction of Cr(VI) to Cr(III) by structural Fe(II) (Fe(II)s) in GRSO4 in all studied soils was fast, wherein the application of GRSO4 markedly decreased the amount of Cr(VI)b at the Cr(VI)b/Fe(II)s stoichiometric mole ratio of 0.33. The kinetics of Cr(VI) reduction by GRSO4 could not be determined as this reaction coincided with the release of Cr(VI) from soil during the experiment. The concentration of Cr(VI)b decreased, as the Cr(VI)b/Fe(II)s ratio decreased from 0.46 to 0.20, generally to below 10 mg kg–1. Back-transformation of the generated Cr(III) was examined in the presence of manganese oxide birnessite at the birnessite/initial Cr(III) mole ratio of 4.5. The results of batch tests showed that only 5.2% of the initial Cr(III) was converted to Cr(VI) after two months, while under field capacity moisture conditions, less than 0.05% of the initial Cr(III) was oxidized to Cr(VI) after six months. The results illustrated that remediation of Cr(VI)-contaminated soils would be fast, successful, and irreversible with an appropriate quantity of fresh GRSO4. Chromium(Cr)-contaminated soils pose a great environmental risk,with high solubility and persistent leaching of Cr(Ⅵ).In this study,hydroxysulfate green rust(GRSO4),with the general formula Fe(Ⅱ)4Fe(Ⅲ)2(OH)12SO4·8H2O,was evaluated for its efficiency in Cr(Ⅵ)stabilization via Cr(Ⅵ)reduction to Cr(Ⅲ)in four representative Cr(Ⅵ)-spiked soils.The initial concentrations of phosphate buffer-extractable Cr(Ⅵ)(Cr(Ⅵ)b)in soils 1,2,3,and 4 were 382.4,575.9,551.3,and 483.7 mg kg-1,respectively.Reduction of Cr(Ⅵ)to Cr(Ⅲ)by structural Fe(Ⅱ)(Fe(ll)s)in GRSO4 in all studied soils was fast,wherein the application of GRSc4 markedly decreased the amount of Cr(Ⅵ)b at the Cr(Ⅵ)b/Fe(Ⅱ)s stoichiometric mole ratio of 0.33.The kinetics of Cr(Ⅵ)reduction by GRSo4 could not be determined as this reaction coincided with the release of Cr(Ⅵ)from soil during the experiment.The concentration of Cr(Ⅵ)b decreased,as the Cr(Ⅵ)b/Fe(Ⅱ)s ratio decreased from 0.46 to 0.20,generally to below 10 mg kg-1.Back-transformation of the generated Cr(Ⅲ)was examined in the presence of manganese oxide birnessite at the birnessite/initial Cr(Ⅲ)mole ratio of 4.5.The results of batch tests showed that only 5.2%of the initial Cr(Ⅲ)was converted to Cr(Ⅵ)after two months,while under field capacity moisture conditions,less than 0.05%of the initial Cr(Ⅲ)was oxidized to Cr(Ⅵ)after six months.The results illustrated that remediation of Cr(Ⅵ)-contaminated soils would be fast,successful,and irreversible with an appropriate quantity of fresh GRso4. Chromium (Cr)-contaminated soils pose a great environmental risk, with high solubility and persistent leaching of Cr(VI). In this study, hydroxysulfate green rust (GRSO₄), with the general formula Fe(II)₄Fe(III)₂(OH)₁₂SO₄·8H₂O, was evaluated for its efficiency in Cr(VI) stabilization via Cr(VI) reduction to Cr(III) in four representative Cr(VI)-spiked soils. The initial concentrations of phosphate buffer-extractable Cr(VI) (Cr(VI)b) in soils 1, 2, 3, and 4 were 382.4, 575.9, 551.3, and 483.7 mg kg–¹, respectively. Reduction of Cr(VI) to Cr(III) by structural Fe(II) (Fe(II)ₛ) in GRSO₄ in all studied soils was fast, wherein the application of GRSO₄ markedly decreased the amount of Cr(VI)b at the Cr(VI)b/Fe(II)ₛ stoichiometric mole ratio of 0.33. The kinetics of Cr(VI) reduction by GRSO₄ could not be determined as this reaction coincided with the release of Cr(VI) from soil during the experiment. The concentration of Cr(VI)b decreased, as the Cr(VI)b/Fe(II)ₛ ratio decreased from 0.46 to 0.20, generally to below 10 mg kg–¹. Back-transformation of the generated Cr(III) was examined in the presence of manganese oxide birnessite at the birnessite/initial Cr(III) mole ratio of 4.5. The results of batch tests showed that only 5.2% of the initial Cr(III) was converted to Cr(VI) after two months, while under field capacity moisture conditions, less than 0.05% of the initial Cr(III) was oxidized to Cr(VI) after six months. The results illustrated that remediation of Cr(VI)-contaminated soils would be fast, successful, and irreversible with an appropriate quantity of fresh GRSO₄. |
| Author | OUSTAN, Shahin REYHANITABAR, Adel KHATAEE, Alireza ALIDOKHT, Leila NEYSHABURI, Mohammad R. |
| AuthorAffiliation | Faculty of Agriculture,Department of Soil Science,University of Tabriz,Tabriz 51666-16471,Iran;Research Laboratory of Advanced Water and Wastewater Treatment Processes,Department of Applied Chemistry,Faculty of Chemistry,University of Tabriz,Tabriz 51666-16471,Iran%Faculty of Agriculture,Department of Soil Science,University of Tabriz,Tabriz 51666-16471,Iran%Research Laboratory of Advanced Water and Wastewater Treatment Processes,Department of Applied Chemistry,Faculty of Chemistry,University of Tabriz,Tabriz 51666-16471,Iran;Department of Environmental Engineering,Gebze Technical University,Gebze 41400,Turkey |
| AuthorAffiliation_xml | – name: Faculty of Agriculture,Department of Soil Science,University of Tabriz,Tabriz 51666-16471,Iran;Research Laboratory of Advanced Water and Wastewater Treatment Processes,Department of Applied Chemistry,Faculty of Chemistry,University of Tabriz,Tabriz 51666-16471,Iran%Faculty of Agriculture,Department of Soil Science,University of Tabriz,Tabriz 51666-16471,Iran%Research Laboratory of Advanced Water and Wastewater Treatment Processes,Department of Applied Chemistry,Faculty of Chemistry,University of Tabriz,Tabriz 51666-16471,Iran;Department of Environmental Engineering,Gebze Technical University,Gebze 41400,Turkey |
| Author_xml | – sequence: 1 givenname: Leila surname: ALIDOKHT fullname: ALIDOKHT, Leila organization: Faculty of Agriculture, Department of Soil Science, University of Tabriz, Tabriz 51666-16471 (Iran) – sequence: 2 givenname: Shahin surname: OUSTAN fullname: OUSTAN, Shahin email: Oustan@hotmail.com organization: Faculty of Agriculture, Department of Soil Science, University of Tabriz, Tabriz 51666-16471 (Iran) – sequence: 3 givenname: Alireza surname: KHATAEE fullname: KHATAEE, Alireza organization: Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, Faculty of Chemistry, University of Tabriz, Tabriz 51666-16471 (Iran) – sequence: 4 givenname: Mohammad R. surname: NEYSHABURI fullname: NEYSHABURI, Mohammad R. organization: Faculty of Agriculture, Department of Soil Science, University of Tabriz, Tabriz 51666-16471 (Iran) – sequence: 5 givenname: Adel surname: REYHANITABAR fullname: REYHANITABAR, Adel organization: Faculty of Agriculture, Department of Soil Science, University of Tabriz, Tabriz 51666-16471 (Iran) |
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| Keywords | batch system layered double hydroxide Cr(III) oxidation reduction soil remediation birnessite Cr(Ⅲ)oxidation |
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| Publisher | Elsevier Ltd Elsevier Science Ltd Research Laboratory of Advanced Water and Wastewater Treatment Processes,Department of Applied Chemistry,Faculty of Chemistry,University of Tabriz,Tabriz 51666-16471,Iran%Faculty of Agriculture,Department of Soil Science,University of Tabriz,Tabriz 51666-16471,Iran%Research Laboratory of Advanced Water and Wastewater Treatment Processes,Department of Applied Chemistry,Faculty of Chemistry,University of Tabriz,Tabriz 51666-16471,Iran Department of Environmental Engineering,Gebze Technical University,Gebze 41400,Turkey Faculty of Agriculture,Department of Soil Science,University of Tabriz,Tabriz 51666-16471,Iran |
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| Snippet | Chromium (Cr)-contaminated soils pose a great environmental risk, with high solubility and persistent leaching of Cr(VI). In this study, hydroxysulfate green... Chromium(Cr)-contaminated soils pose a great environmental risk,with high solubility and persistent leaching of Cr(Ⅵ).In this study,hydroxysulfate green... |
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| SubjectTerms | batch system birnessite Chromium Cr(III) oxidation Environmental risk Field capacity Green rust Iron layered double hydroxide Leaching Manganese manganese monoxide Manganese oxides phosphates Reduction remediation risk Rusting Soil contamination Soil pollution Soil remediation Soils solubility Stabilization stoichiometry Trivalent chromium |
| Title | Stabilization of chromium(VI) by hydroxysulfate green rust in chromium(VI)-contaminated soils |
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