High Purity Nickel Recovery from an Industrial Sidestream Using Concentration and Liquid-Liquid Extraction Techniques
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| Title: | High Purity Nickel Recovery from an Industrial Sidestream Using Concentration and Liquid-Liquid Extraction Techniques |
| Author(s): | Hu, Fang ; Wilson, Benjamin P. ; Han, Bing ; Zhang, Jianxin ; Louhi-Kultanen, Marjatta ; Lundström, Mari |
| Date: | 2019-12-04 |
| Language: | en |
| Pages: | 8 |
| Department: | Central South University Department of Chemical and Metallurgical Engineering Chemical Engineering in Aqueous Systems Hydrometallurgy and Corrosion Department of Chemical and Metallurgical Engineering |
| Series: | JOM |
| ISSN: | 1047-4838 1543-1851 |
| DOI-number: | 10.1007/s11837-019-03928-4 |
| Subject: | Metals and Alloys, Process Chemistry and Technology, Waste Management and Disposal, 216 Materials engineering, 215 Chemical engineering, 218 Environmental engineering, Metals, Inorganic chemistry |
| Keywords: | DIRECT SOLVENT-EXTRACTION, SODIUM-SALTS, SULFATE, PURIFICATION, COBALT, SEPARATION, Metals and Alloys, Process Chemistry and Technology, Waste Management and Disposal, 216 Materials engineering, 215 Chemical engineering, 218 Environmental engineering, Metals, Inorganic chemistry |
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Hu , F , Wilson , B P , Han , B , Zhang , J , Louhi-Kultanen , M & Lundström , M 2019 , ' High Purity Nickel Recovery from an Industrial Sidestream Using Concentration and Liquid-Liquid Extraction Techniques ' , JOM . https://doi.org/10.1007/s11837-019-03928-4 |
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Abstract:This article outlines an alternative flowsheet for the purification of a multi-metal industrial sidestream (16.3 g/l Ni, 0.7 g/l Co, 0.6 g/l Ca and 1.6 g/l Mg) to allow high-purity nickel recovery. The methodology comprises an initial evaporation step to achieve Ca removal followed by impurity (Ca, Mg) and valuable (Co, Ni) element separation via two-step solvent extraction with organophosphorus extractants. Results indicate that > 80% of Ca is selectively removed as CaSO4 center dot 2H(2)O by evaporation with a concentration degree > 6. In the following treatment, 90% of residual Ca (0.6 g/l) can be selectively extracted with Na-D(2)EHPA. The subsequent solvent extraction step with Na-Cyanex 272 separates Co (> 99%) and Mg (> 95%). The resultant nickel sulfate solution (61.7 g/l Ni, 0.3 g/l Mg and Co 0.007 g/l) of > 99.5% purity can be directly integrated into state-of-the-art nickel recovery processes.
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