Loading…

Characterization of a refractory arsenical silver ore by mineral liberation analysis (MLA) and diagnostic leaching

In this study, a detailed characterization of an extremely complex arsenical silver ore using mineral liberation analysis and diagnostic leaching for identification and occurrence of silver phases is presented. Mineralogical analysis of the ore has shown that silver is present mainly as acanthite an...

Full description

Saved in:
Bibliographic Details
Published in:Hydrometallurgy 2019-11, Vol.189, p.105106, Article 105106
Main Authors: Celep, Oktay, Yazici, Ersin Y., Altinkaya, Pelin, Deveci, Haci
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In this study, a detailed characterization of an extremely complex arsenical silver ore using mineral liberation analysis and diagnostic leaching for identification and occurrence of silver phases is presented. Mineralogical analysis of the ore has shown that silver is present mainly as acanthite and to a small extent as Fe-Pb-Ag-Zn arsenate/oxide. Acanthite was observed to occur as very fine grains (53% finer than 7 μm, d80: 11 μm) associated with various Pb-Fe-Sb arsenates and silicates (quartz, feldspar, kaolinite, mica/chlorite and clay). Around 33.1% of acanthite grains are present as free grains whilst 12% are locked-up within associated phases. Cyanide leach tests indicated that the extraction of silver from the ore was limited to 71% Ag over a cyanide leaching period of 24 h. This low extraction was presumably due to the limited exposure of fine acanthite grains to cyanide solution since ultra-fine grinding of the ore led to an enhanced silver extraction. It can be inferred from the findings of diagnostic leaching tests that the refractoriness of the ore can be attributed essentially to the encapsulation of acanthite within HCl-soluble phases (in particular, complex Pb-Fe-Sb-Zn oxides, arsenates and sulphates) (22%) and HF-soluble silicates (6%). It can be inferred from these findings that ultrafine grinding (even finer than few microns) or acid leaching can be used for achieving high silver extractions. This study also highlights the effective utilization of MLA in combination with diagnostic leaching for comprehensive characterization of refractory gold/silver ores and providing invaluable insights into their refractory behaviour. •This study highlights the effective utilization of MLA in combination with diagnostic leaching.•The complex mineralogical properties of silver-bearing minerals are often the main reason of poor silver extractions.•Acanthite was observed to occur as very fine grains associated with various Pb-Fe-Sb arsenates and silicates.•Low silver extraction was presumably due to the limited exposure of fine acanthite grains to cyanide solution.
ISSN:0304-386X
1879-1158
DOI:10.1016/j.hydromet.2019.105106