Calcium polysulfide remediation of hexavalent chromium contamination from chromite ore processing residue

Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and carcinogenic hexavalent chromium (Cr(VI)) to groundwaters which are highly contaminated with Cr(VI)O 4 2−. Traditional methods of remediating Cr(VI)...

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Published inThe Science of the total environment Vol. 364; no. 1; pp. 32 - 44
Main Authors Graham, Margaret C., Farmer, John G., Anderson, Peter, Paterson, Edward, Hillier, Stephen, Lumsdon, David G., Bewley, Richard J.F.
Format Journal Article
LanguageEnglish
Published Shannon Elsevier B.V 01.07.2006
Elsevier Science
Subjects
Applied sciences
Calcium Compounds - chemistry
Calcium polysulfide
Carcinogens, Environmental - chemistry
Chromium - chemistry
COPR
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Exact sciences and technology
Groundwater
Groundwaters
Hexavalent chromium
Industrial Waste - analysis
Metallurgy
Natural water pollution
Pollution
Pollution, environment geology
Remediation
Scotland
Sulfides - chemistry
Thiosulfates - chemistry
Waste Disposal, Fluid - methods
Water Pollutants, Chemical - analysis
Water Supply - analysis
Water treatment and pollution
United Kingdom
Scotland
Great Britain
Europe
British Isles, Scotland, Glasgow
Hexavalent chromium
COPR
Remediation
Groundwater
Calcium polysulfide
Calcium Polysulfides
Reducing agent
Chromates
Heavy metal
Chemical reduction
Industrial waste
Decontamination
Solid waste
Water pollution
Mining industry
Chromium VI
Ground water
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Abstract Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and carcinogenic hexavalent chromium (Cr(VI)) to groundwaters which are highly contaminated with Cr(VI)O 4 2−. Traditional methods of remediating Cr(VI)-contaminated land, e.g. using ferrous sulfate and organic matter, have had limited success in converting Cr(VI) to less harmful and insoluble Cr(III). This paper describes the first application of calcium polysulfide (CaS x ) to the remediation of contaminated groundwater and high-lime COPR in a series of laboratory experiments, which have demonstrated the effectiveness of the treatment in quantitatively and rapidly reducing Cr(VI) to Cr(III) over the pH range (8–12.5) typically found at the sites. Cr(III)-organic complexes, present in groundwater at one location, were also effectively precipitated upon treatment with CaS x . The potential for large-scale use of CaS x in the remediation of Cr(VI) from COPR is also discussed.
AbstractList Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and carcinogenic hexavalent chromium (Cr(VI)) to groundwaters which are highly contaminated with Cr(VI)O 4 2−. Traditional methods of remediating Cr(VI)-contaminated land, e.g. using ferrous sulfate and organic matter, have had limited success in converting Cr(VI) to less harmful and insoluble Cr(III). This paper describes the first application of calcium polysulfide (CaS x ) to the remediation of contaminated groundwater and high-lime COPR in a series of laboratory experiments, which have demonstrated the effectiveness of the treatment in quantitatively and rapidly reducing Cr(VI) to Cr(III) over the pH range (8–12.5) typically found at the sites. Cr(III)-organic complexes, present in groundwater at one location, were also effectively precipitated upon treatment with CaS x . The potential for large-scale use of CaS x in the remediation of Cr(VI) from COPR is also discussed.
Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and carcinogenic hexavalent chromium (Cr(VI)) to groundwaters which are highly contaminated with Cr(VI)O4(2-). Traditional methods of remediating Cr(VI)-contaminated land, e.g. using ferrous sulfate and organic matter, have had limited success in converting Cr(VI) to less harmful and insoluble Cr(III). This paper describes the first application of calcium polysulfide (CaS(x)) to the remediation of contaminated groundwater and high-lime COPR in a series of laboratory experiments, which have demonstrated the effectiveness of the treatment in quantitatively and rapidly reducing Cr(VI) to Cr(III) over the pH range (8-12.5) typically found at the sites. Cr(III)-organic complexes, present in groundwater at one location, were also effectively precipitated upon treatment with CaS(x). The potential for large-scale use of CaS(x) in the remediation of Cr(VI) from COPR is also discussed.Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and carcinogenic hexavalent chromium (Cr(VI)) to groundwaters which are highly contaminated with Cr(VI)O4(2-). Traditional methods of remediating Cr(VI)-contaminated land, e.g. using ferrous sulfate and organic matter, have had limited success in converting Cr(VI) to less harmful and insoluble Cr(III). This paper describes the first application of calcium polysulfide (CaS(x)) to the remediation of contaminated groundwater and high-lime COPR in a series of laboratory experiments, which have demonstrated the effectiveness of the treatment in quantitatively and rapidly reducing Cr(VI) to Cr(III) over the pH range (8-12.5) typically found at the sites. Cr(III)-organic complexes, present in groundwater at one location, were also effectively precipitated upon treatment with CaS(x). The potential for large-scale use of CaS(x) in the remediation of Cr(VI) from COPR is also discussed.
Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and carcinogenic hexavalent chromium (Cr(VI)) to groundwaters which are highly contaminated with Cr(VI)O sub(4) super(2-). Traditional methods of remediating Cr(VI)- contaminated land, e.g. using ferrous sulfate and organic matter, have had limited success in converting Cr(VI) to less harmful and insoluble Cr(III). This paper describes the first application of calcium polysulfide (CaS sub(x)) to the remediation of contaminated groundwater and high-lime COPR in a series of laboratory experiments, which have demonstrated the effectiveness of the treatment in quantitatively and rapidly reducing Cr(VI) to Cr(III) over the pH range (8-12.5) typically found at the sites. Cr(III)-organic complexes, present in groundwater at one location, were also effectively precipitated upon treatment with CaS sub(x). The potential for large-scale use of CaS sub(x) in the remediation of Cr(VI) from COPR is also discussed.
The potential of CaS sub(x) through ha series of laboratory experiments for the treatment of Cr(VI) containing groundwater samples and the remediation of high pH COPR from contaminated sites in the Glasgow area was investigated. Collection of 1-1 groundwater samples from three boreholes was carried out on 1st September 2004. The purge volume, pH, electrical conductivity, depth to groundwater, depth to base of the well, and water sample description were recorded. Each groundwater sample was filtered through 0.45 mu m filters prior to initial analysis for Cr(VI) and total Cr by colorimetry. It was observed that both of the CaS sub(x) treatments were effective in the complete removal of Cr(VI) from BH601 from solution.
Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and carcinogenic hexavalent chromium (Cr(VI)) to groundwaters which are highly contaminated with Cr(VI)O4 . Traditional methods of remediating Cr(VI)-contaminated land, e.g. using ferrous sulfate and organic matter, have had limited success in converting Cr(VI) to less harmful and insoluble Cr(III). This paper describes the first application of calcium polysulfide (CaSx) to the remediation of contaminated groundwater and high-lime COPR in a series of laboratory experiments, which have demonstrated the effectiveness of the treatment in quantitatively and rapidly reducing Cr(VI) to Cr(III) over the pH range (8-12.5) typically found at the sites. Cr(III)-organic complexes, present in groundwater at one location, were also effectively precipitated upon treatment with CaSx. The potential for large-scale use of CaSx in the remediation of Cr(VI) from COPR is also discussed.
Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and carcinogenic hexavalent chromium (Cr(VI)) to groundwaters which are highly contaminated with Cr(VI)O4(2-). Traditional methods of remediating Cr(VI)-contaminated land, e.g. using ferrous sulfate and organic matter, have had limited success in converting Cr(VI) to less harmful and insoluble Cr(III). This paper describes the first application of calcium polysulfide (CaS(x)) to the remediation of contaminated groundwater and high-lime COPR in a series of laboratory experiments, which have demonstrated the effectiveness of the treatment in quantitatively and rapidly reducing Cr(VI) to Cr(III) over the pH range (8-12.5) typically found at the sites. Cr(III)-organic complexes, present in groundwater at one location, were also effectively precipitated upon treatment with CaS(x). The potential for large-scale use of CaS(x) in the remediation of Cr(VI) from COPR is also discussed.
Author Hillier, Stephen
Lumsdon, David G.
Paterson, Edward
Bewley, Richard J.F.
Anderson, Peter
Farmer, John G.
Graham, Margaret C.
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  surname: Graham
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  organization: School of GeoSciences, Joseph Black Building, University of Edinburgh, Edinburgh EH9 3JJ, Scotland, UK
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  surname: Farmer
  fullname: Farmer, John G.
  organization: School of GeoSciences, Joseph Black Building, University of Edinburgh, Edinburgh EH9 3JJ, Scotland, UK
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  givenname: Peter
  surname: Anderson
  fullname: Anderson, Peter
  organization: CLARRC, University of Edinburgh, Edinburgh EH9 3JN, Scotland, UK
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  givenname: Edward
  surname: Paterson
  fullname: Paterson, Edward
  organization: The Macaulay Institute, Aberdeen AB15 8QH, Scotland, UK
– sequence: 5
  givenname: Stephen
  surname: Hillier
  fullname: Hillier, Stephen
  organization: The Macaulay Institute, Aberdeen AB15 8QH, Scotland, UK
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  givenname: David G.
  surname: Lumsdon
  fullname: Lumsdon, David G.
  organization: The Macaulay Institute, Aberdeen AB15 8QH, Scotland, UK
– sequence: 7
  givenname: Richard J.F.
  surname: Bewley
  fullname: Bewley, Richard J.F.
  organization: URS Corporation Ltd., Manchester M1 6EJ, England, UK
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Issue 1
Keywords Hexavalent chromium
COPR
Remediation
Groundwater
Calcium polysulfide
Calcium Polysulfides
Reducing agent
Chromates
Heavy metal
Chemical reduction
Industrial waste
Decontamination
Solid waste
Water pollution
Mining industry
Chromium VI
Ground water
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Snippet Past disposal of high-lime chromite ore processing residue (COPR) from a chemical works in S.E. Glasgow, UK, has led to continuing release of toxic and...
The potential of CaS sub(x) through ha series of laboratory experiments for the treatment of Cr(VI) containing groundwater samples and the remediation of high...
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SubjectTerms Applied sciences
Calcium Compounds - chemistry
Calcium polysulfide
Carcinogens, Environmental - chemistry
Chromium - chemistry
COPR
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Exact sciences and technology
Groundwater
Groundwaters
Hexavalent chromium
Industrial Waste - analysis
Metallurgy
Natural water pollution
Pollution
Pollution, environment geology
Remediation
Scotland
Sulfides - chemistry
Thiosulfates - chemistry
Waste Disposal, Fluid - methods
Water Pollutants, Chemical - analysis
Water Supply - analysis
Water treatment and pollution
Title Calcium polysulfide remediation of hexavalent chromium contamination from chromite ore processing residue
URI https://dx.doi.org/10.1016/j.scitotenv.2005.11.007
https://www.ncbi.nlm.nih.gov/pubmed/16442591
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https://www.proquest.com/docview/68028227
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