Leaching and solvent extraction purification of zinc from Mehdiabad complex oxide ore

Abstract An integrated hydrometallurgical process was used for the zinc leaching and purification from a zinc ore containing 9.75 wt% zinc. The zinc minerals in the ore were hemimorphite, willemite, and calcophanite. Main gangue minerals were quartz, goethite, hematite, and calcite. Central composit...

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Main Authors: Faraz Soltani, Hossna Darabi, Reza Aram, Mahdi Ghadiri
Format: Article
Language:English
Published: Nature Publishing Group 2021-01-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-81141-7
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spelling doaj-0ceda63d89e94a3aad5d7bf7318e24c02021-01-17T12:30:47ZengNature Publishing GroupScientific Reports2045-23222021-01-0111111110.1038/s41598-021-81141-7Leaching and solvent extraction purification of zinc from Mehdiabad complex oxide oreFaraz Soltani0Hossna Darabi1Reza Aram2Mahdi Ghadiri3Mining Engineering Department, Arak University of TechnologyMining Engineering Department, Tarbiat Modares UniversityAcademic Center for Education, Culture and Research (ACECR) On TMUInstitute of Research and Development, Duy Tan UniversityAbstract An integrated hydrometallurgical process was used for the zinc leaching and purification from a zinc ore containing 9.75 wt% zinc. The zinc minerals in the ore were hemimorphite, willemite, and calcophanite. Main gangue minerals were quartz, goethite, hematite, and calcite. Central composite design (CCD) method was used to design leaching experiments and the optimum conditions were found as follows: 30% of solid fraction, 22.05% sulphuric acid concentration, and the leaching temperature of 45 °C. The PLS containing 35.07 g/L zinc, 3.16 g/L iron, and 4.58 g/L manganese impurities was produced. A special purification process including Fe precipitation and Zn solvent extraction was implemented. The results showed that after precipitation of iron, Zn extraction of 88.5% was obtained with the 2 stages extraction system composed of 30 vol% D2EHPA as extractant. The overall Zn recovery from the ore was 71.44%. Therefore, an appropriate solution containing 16.6 g/L Zn, 0.05 g/L Fe, and 0.11 g/L Mn was prepared for the electro-winning unit without using the roasting and calcination steps (conventional method), which result in environmental pollution.https://doi.org/10.1038/s41598-021-81141-7
collection DOAJ
language English
format Article
sources DOAJ
author Faraz Soltani
Hossna Darabi
Reza Aram
Mahdi Ghadiri
spellingShingle Faraz Soltani
Hossna Darabi
Reza Aram
Mahdi Ghadiri
Leaching and solvent extraction purification of zinc from Mehdiabad complex oxide ore
Scientific Reports
author_facet Faraz Soltani
Hossna Darabi
Reza Aram
Mahdi Ghadiri
author_sort Faraz Soltani
title Leaching and solvent extraction purification of zinc from Mehdiabad complex oxide ore
title_short Leaching and solvent extraction purification of zinc from Mehdiabad complex oxide ore
title_full Leaching and solvent extraction purification of zinc from Mehdiabad complex oxide ore
title_fullStr Leaching and solvent extraction purification of zinc from Mehdiabad complex oxide ore
title_full_unstemmed Leaching and solvent extraction purification of zinc from Mehdiabad complex oxide ore
title_sort leaching and solvent extraction purification of zinc from mehdiabad complex oxide ore
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-01-01
description Abstract An integrated hydrometallurgical process was used for the zinc leaching and purification from a zinc ore containing 9.75 wt% zinc. The zinc minerals in the ore were hemimorphite, willemite, and calcophanite. Main gangue minerals were quartz, goethite, hematite, and calcite. Central composite design (CCD) method was used to design leaching experiments and the optimum conditions were found as follows: 30% of solid fraction, 22.05% sulphuric acid concentration, and the leaching temperature of 45 °C. The PLS containing 35.07 g/L zinc, 3.16 g/L iron, and 4.58 g/L manganese impurities was produced. A special purification process including Fe precipitation and Zn solvent extraction was implemented. The results showed that after precipitation of iron, Zn extraction of 88.5% was obtained with the 2 stages extraction system composed of 30 vol% D2EHPA as extractant. The overall Zn recovery from the ore was 71.44%. Therefore, an appropriate solution containing 16.6 g/L Zn, 0.05 g/L Fe, and 0.11 g/L Mn was prepared for the electro-winning unit without using the roasting and calcination steps (conventional method), which result in environmental pollution.
url https://doi.org/10.1038/s41598-021-81141-7
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