Article ID Journal Published Year Pages File Type
8866073 Journal of Geochemical Exploration 2018 53 Pages PDF
Abstract
This study aims to investigate the geochemistry of major ions, trace and rare earth elements (REE) near the Angouran Zn-Pb mine. Thermodynamic modelling and saturation indices were computed using PHREEQC. Process and tailings water samples of the Calcimin processing plant were near neutral (pH = 5.8-7.9) and had high concentrations of SO4 (1179-15,000 mg/L), Zn up to 18,529 mg/L, Pb up to 1780 μg/L, As up to 465 μg/L and Cd up to 230 μg/L. Water of the Angouran pit was neutral-alkaline (pH = 7.6-8.25) with low concentrations of SO4 (21-87 mg/L), elevated concentration of Zn up to 27 mg/L, Pb up to 586.3 μg/L and Cd up to 33 μg/L. Water flowing out of the Angouran Mine adit was neutral-alkaline (pH = 7.5-8.05) with variable SO4 content (30-2294 mg/L), Zn content up to 8 mg/L, Pb up to 123 μg/L and As up to 35.4 μg/L. Elements As, Pb, Cd, Ni and Zn concentrations in the plant waters were higher than USEPA effluents limits. Generally, the types of water in the plant and the mine ranged from Zn-SO4, Na + K-SO4 to Ca-HCO3, respectively. North-American Shale Composite (NASC) normalised patterns of the mine and the spring water samples showed middle REE (MREE) and high REE (HREE) enrichment. The most toxic elements including Pb, Cd, Ni, and Zn were predicted as cationic form in the plant water. The prediction further showed that smithsonite (ZnCO3), hydrozincite Zn5(OH)6(CO3)2, hemimorphite Zn4Si2O7(OH)2, and beudantite (PbFe3(AsO4)(SO4)(OH)6) were oversaturated in some water samples.
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Physical Sciences and Engineering Earth and Planetary Sciences Economic Geology
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