Comprehensive Utilization of Pyrite Concentrate Pyrolysis Slag by Oxygen Pressure Leaching

The preparation of high-purity sulfur and pyrrhotite by pyrolysis holds great potential to realize the high-value utilization of pyrite concentrate (FeS2), i.e., a by-product during the flotation of sulfide ore. In this study, the pyrrhotite obtained from the pyrolysis of pyrite concentrate was take...

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Bibliographic Details
Published in:Minerals (Basel) 2023-06, Vol.13 (6), p.726
Main Authors: Liu, Lin-Bo, Yi, Longsheng, Song, Yunfeng
Format: Article
Language:English
Subjects:
Acidity
elemental sulfur
Energy consumption
Flotation
Haematite
Hematite
Hydrochloric acid
Iron
Iron sulfides
Leaching
Low temperature
Oxygen
Oxygen pressure leaching
Partial pressure
Pressure
Pressure leaching
Pyrite
Pyrolysis
pyrolytic slag of pyrite concentrate
Pyrrhotite
Residues
Slag
Sulfides
Sulfur
Sulfur content
Sulfuric acid
Sulphides
Sulphur
Utilization
Zinc
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Summary:The preparation of high-purity sulfur and pyrrhotite by pyrolysis holds great potential to realize the high-value utilization of pyrite concentrate (FeS2), i.e., a by-product during the flotation of sulfide ore. In this study, the pyrrhotite obtained from the pyrolysis of pyrite concentrate was taken as the study object, and the effects of acid types, initial acidity, leaching time, leaching temperature, oxygen pressure, and liquid-to-solid ratio on the leaching behavior of pyrrhotite under oxygen pressure, were explored. The results show that elemental sulfur and hematite-based iron residue can be obtained by oxygen pressure leaching of pyrrhotite. It is found that the optimal experimental conditions for pyrrhotite oxygen pressure leaching are hydrochloric acid with 0.8 mol/L of initial acidity, 5 h of leaching time, 0.8 MPa of oxygen partial pressure, and 9:1 of liquid to solid ratio at 150 °C; moreover, the yield of sulfur reached 88.37%. Under optimal conditions, the leaching ratios of Fe, Pb, and Zn were 19.8%, 92.25%, and 99.11%, respectively. The sieved leaching residue was roasted at a low temperature of 500 °C, where the grade of Fe in the obtained hematite iron powder was 61.46%, and the grades of Pb, Zn, and S were 0.082%, 0.024%, and 0.1%. Clearly, the results meet well with the standard of the first grade of pyrite cinder, and this process realizes the comprehensive recovery of Fe and S resources in pyrolysis slag, which provides a superb technical route for the high-value utilization of pyrite concentrate.
ISSN:2075-163X
2075-163X
DOI:10.3390/min13060726