The potential arsenic retention role of Ca-Fe(III)-AsO{sub 4} compounds in lime neutralized co-precipitation tailings

Becze, L.; Gomez, M. A.; Petkov, V.; Cutler, J. N.; Demopoulos, G.P., E-mail: george.demopoulos@mcgill.ca

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The potential arsenic retention role of Ca-Fe(III)-AsO{sub 4} compounds in lime neutralized co-precipitation tailings

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Abstract

Arsenic is a major contaminant in a number of high grade uranium ores mined in Northern Saskatchewan. Upon processing of these ores by hydrometallurgical processes, arsenic reports to aqueous waste solutions from which arsenic(V) is removed by co-precipitation with iron(III). This process results in the generation of a mixture of poorly crystalline arsenate-bearing phases and gypsum. Based on laboratory investigations there exists the potential upon reaction of the disposed iron(III)-arsenate phases and gypsum to lead to Ca-Fe(III)-AsO{sub 4} association resembling the mineral yukonite. In this paper the laboratory synthesis, characterization and solubility investigation of yukonite is reviewed and the implications of its formation in U-mill tailings as an arsenic control phase are discussed. (author)

Authors:

Becze, L.; Gomez, M. A.; ^[1] Petkov, V.; ^[2] Cutler, J. N.; ^[3] Demopoulos, G.P., E-mail: george.demopoulos@mcgill.ca ^[4]

McGill Univ., Dept. of Mining and Materials Engineering, Montreal, QC (Canada)
Central Michigan Univ., Dept. of Physics, Mount Pleasant, Michigan (United States)
Univ. of Saskatchewan, Canadian Light Source Inc., Saskatoon, SK (Canada)
MCGill Univ., Dept. of Mining and Materials Engineering, Montreal, Quebec (Canada)

Publication Date:

Jul 01, 2010

Product Type:

Conference

Resource Relation:

Conference: Uranium 2010 The Future is U: 3. International Conference on Uranium, Saskatoon, Saskatchewan (Canada), 15-18 Aug 2010, 40. Annual Hydrometallurgy Meeting, Saskatoon, Saskatchewan (Canada), 15-18 Aug 2010; Other Information: 35 refs., 2 tabs., 3 figs.; Related Information: In: Uranium 2010: The Future is U. Proceedings Volume 1 and 2| by Lam, E.K. [Cameco, Port Hope, Ontario (Canada)]; Rowson, J.W. [AREVA Resources, Saskatoon, Saskatchewan (Canada)]; Ozberk, E. (ed.) [Cameco, Saskatoon, Saskatchewan (Canada)]| 2 v.

Subject:

11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS; ARSENIC; CONTAMINATION; HYDROMETALLURGY; ORE PROCESSING; URANIUM MINES; URANIUM ORES

OSTI ID:

22614572

Research Organizations:

The Canadian Inst. of Mining, Metallurgy and Petroleum, Westmount, Quebec (Canada)

Country of Origin:

Canada

Language:

English

Other Identifying Numbers:

Other: ISBN 1-894475-97-6; TRN: CA1700172061199

Availability:

Available from The Canadian Inst. of Mining, Metallurgy and Petroleum, Westmount, Quebec (Canada)

Submitting Site:

CANN

Size:

(v.2) page(s) 327-336

Announcement Date:

Aug 17, 2017

Citation Formats

Becze, L., Gomez, M. A., Petkov, V., Cutler, J. N., and Demopoulos, G.P., E-mail: george.demopoulos@mcgill.ca. The potential arsenic retention role of Ca-Fe(III)-AsO{sub 4} compounds in lime neutralized co-precipitation tailings. Canada: N. p., 2010. Web.

Becze, L., Gomez, M. A., Petkov, V., Cutler, J. N., & Demopoulos, G.P., E-mail: george.demopoulos@mcgill.ca. The potential arsenic retention role of Ca-Fe(III)-AsO{sub 4} compounds in lime neutralized co-precipitation tailings. Canada.

Becze, L., Gomez, M. A., Petkov, V., Cutler, J. N., and Demopoulos, G.P., E-mail: george.demopoulos@mcgill.ca. 2010. "The potential arsenic retention role of Ca-Fe(III)-AsO{sub 4} compounds in lime neutralized co-precipitation tailings." Canada.

@misc{etde_22614572,
title = {The potential arsenic retention role of Ca-Fe(III)-AsO{sub 4} compounds in lime neutralized co-precipitation tailings}
author = {Becze, L., Gomez, M. A., Petkov, V., Cutler, J. N., and Demopoulos, G.P., E-mail: george.demopoulos@mcgill.ca}
abstractNote = {Arsenic is a major contaminant in a number of high grade uranium ores mined in Northern Saskatchewan. Upon processing of these ores by hydrometallurgical processes, arsenic reports to aqueous waste solutions from which arsenic(V) is removed by co-precipitation with iron(III). This process results in the generation of a mixture of poorly crystalline arsenate-bearing phases and gypsum. Based on laboratory investigations there exists the potential upon reaction of the disposed iron(III)-arsenate phases and gypsum to lead to Ca-Fe(III)-AsO{sub 4} association resembling the mineral yukonite. In this paper the laboratory synthesis, characterization and solubility investigation of yukonite is reviewed and the implications of its formation in U-mill tailings as an arsenic control phase are discussed. (author)}
place = {Canada}
year = {2010}
month = {Jul}
}

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