Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ash

Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ash

Investigations of heavy metals from lignite ash, which is a coal combustion by-product, have for years been very interesting from different aspects of environmental protection. In this study, the possibility of microbiological ash leaching, with a strong oxidation agent, bacterially generated Fe2(SO...

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Main Authors: JELENA S. JEKIC, VLADIMIR P. BESKOSKI, GORDANA GOJGIC-CVIJOVIC, MIRJANA GRBAVCIC, MIROSLAV M. VRVIC
Format: Article
Language:English
Published: Serbian Chemical Society 2007-06-01
Series:Journal of the Serbian Chemical Society
Subjects:
Acidithiobacillus ferrooxidans
heavy metals
coal ash
Online Access:http://www.shd.org.yu/JSCS/Vol72/No6/JSCS_V72_No06-10.pdf
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spelling doaj-41e9d5e7a0874639a7cefe7b32c599bc2020-11-24T21:56:59ZengSerbian Chemical Society Journal of the Serbian Chemical Society0352-51392007-06-01726615619Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ashJELENA S. JEKICVLADIMIR P. BESKOSKIGORDANA GOJGIC-CVIJOVICMIRJANA GRBAVCICMIROSLAV M. VRVICInvestigations of heavy metals from lignite ash, which is a coal combustion by-product, have for years been very interesting from different aspects of environmental protection. In this study, the possibility of microbiological ash leaching, with a strong oxidation agent, bacterially generated Fe2(SO4)3 was investigated in order to minimize the concentration of toxic ash elements. Leaching experiment by the shake flask testing technique was performed during a period of 20 d at a temperature of 28 °C. The results obtained show 5- to 22-fold (for Cd and Ni approx. 5, Zn approx. 6, Mn approx. 8, Cr approx. 13 and Cu approx. 22) higher metal leaching efficicency in the suspension with bacterially generated Fe2(SO4)3 than in the control suspension.http://www.shd.org.yu/JSCS/Vol72/No6/JSCS_V72_No06-10.pdfAcidithiobacillus ferrooxidansheavy metalscoal ash
collection DOAJ
language English
format Article
sources DOAJ
author JELENA S. JEKIC
VLADIMIR P. BESKOSKI
GORDANA GOJGIC-CVIJOVIC
MIRJANA GRBAVCIC
MIROSLAV M. VRVIC
spellingShingle JELENA S. JEKIC
VLADIMIR P. BESKOSKI
GORDANA GOJGIC-CVIJOVIC
MIRJANA GRBAVCIC
MIROSLAV M. VRVIC
Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ash
Journal of the Serbian Chemical Society
Acidithiobacillus ferrooxidans
heavy metals
coal ash
author_facet JELENA S. JEKIC
VLADIMIR P. BESKOSKI
GORDANA GOJGIC-CVIJOVIC
MIRJANA GRBAVCIC
MIROSLAV M. VRVIC
author_sort JELENA S. JEKIC
title Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ash
title_short Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ash
title_full Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ash
title_fullStr Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ash
title_full_unstemmed Bacterially generated Fe2(SO4)3 from pyrite, as a leaching agent for heavy metals from lignite ash
title_sort bacterially generated fe2(so4)3 from pyrite, as a leaching agent for heavy metals from lignite ash
publisher Serbian Chemical Society
series Journal of the Serbian Chemical Society
issn 0352-5139
publishDate 2007-06-01
description Investigations of heavy metals from lignite ash, which is a coal combustion by-product, have for years been very interesting from different aspects of environmental protection. In this study, the possibility of microbiological ash leaching, with a strong oxidation agent, bacterially generated Fe2(SO4)3 was investigated in order to minimize the concentration of toxic ash elements. Leaching experiment by the shake flask testing technique was performed during a period of 20 d at a temperature of 28 °C. The results obtained show 5- to 22-fold (for Cd and Ni approx. 5, Zn approx. 6, Mn approx. 8, Cr approx. 13 and Cu approx. 22) higher metal leaching efficicency in the suspension with bacterially generated Fe2(SO4)3 than in the control suspension.
topic Acidithiobacillus ferrooxidans
heavy metals
coal ash
url http://www.shd.org.yu/JSCS/Vol72/No6/JSCS_V72_No06-10.pdf
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