Journal
HYDROMETALLURGY
Volume 107, Issue 3-4, Pages 74-90Publisher
ELSEVIER
DOI: 10.1016/j.hydromet.2011.01.007
Keywords
Fe-AsO4-SO4 system; Autoclave; High temperature (150-225 C); Arsenic; Raman and IR spectroscopy; XANES; Leachability; Gold and copper industries; CESL; Total pressure oxidation
Categories
Funding
- NSERC
- Areva Resources Inc.
- Barrick Gold
- Cameco
- Hatch and Teck Cominco
- NRC
- CIHR
- University of Saskatchewan
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The hydrothermal reaction chemistry and characterization of high temperature (150-225 degrees C) ferric arsenate phases produced from sulfate media was studied. In particular, the effect of Fe (III)/As (V) molar ratio, temperature, and time on the phases formed was examined. Three major arsenate-bearing phases were produced in our studies: (a) sulfate-containing scorodite (Fe(AsO4)(1-0.67x)(SO4)(x)center dot 2H(2)O where x <= 0.20) at an Fe(III)/As(V) molar ratio of 0.7-1.87, 150-175 degrees C and 2-24 h reaction time; (b) ferric arsenate sub-hydrate (FAsH; Fe(AsO4)(0.998)(SO4)(0.01)center dot 0.72H(2)O) at Fe(III)/As(V) molar ratio of 0.69-0.93, 200-225 degrees C and 10-24 h reaction time; (c) basic ferric arsenate sulfate (BFAS; Fe(AsO4)(1-x)(SO4)(x)center dot(OH)(x)center dot(1-x)H2O, where 0.3<0.7) at Fe(III)/As(V) molar ratio of 1.67-4.01, 175-225 degrees C and 4-24 h reaction time. Scorodite was found to be metastable at an Fe(III)/As(V) molar ratio of one, 1 h reaction time and 200 degrees C. Extension of retention time to 10 h under the same conditions gave predominantly FAsH with minor presence of scorodite, while additional retention time to 24 h resulted in the formation of only FAsH. XRD, Raman and ATR-IR, proved that our FAsH is the same phase with that labeled previously as Type 1 and the Phase 4; similarly our BFAS was identical to the so-called Type 2 and Phase 3. The Fe L-edge XANES analysis showed that scorodite, FAsH and BFAS exhibited an octahedral type of crystal field with a paramagnetic high spin anti-ferromagnetic character as in hematite. Short term leachability tests determined FAsH to be slightly more soluble than scorodite and BFAS after 24 h, while after several TCLP-like contacts there was <0.1 mg/L arsenic release from all phases. Long term (>8 months) stability testing of FAsH and BFAS found FAsH to yield somewhat higher arsenic release than BFAS. The latter's arsenic release potential was evaluated to be equivalent or slightly better than that of scorodite. (C) 2011 Elsevier B.V. All rights reserved.
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