Separation and concentration of rare earth elements from wastewater using electrodialysis technology
•The ED technique shows promising potential for REEs recovery and removal.•The effect of ED operating parameters on REE removal and recovery was studied.•The presence of competing ions influences REE recovery and removal efficiency.•The energy consumption of ED processes using CC and CV modes was co...
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Published in | Separation and purification technology Vol. 254; p. 117442 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
Elsevier B.V
01.01.2021
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Subjects | |
Online Access | Get full text |
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Summary: | •The ED technique shows promising potential for REEs recovery and removal.•The effect of ED operating parameters on REE removal and recovery was studied.•The presence of competing ions influences REE recovery and removal efficiency.•The energy consumption of ED processes using CC and CV modes was compared.
Rare earth elements (REEs) including Scandium (Sc) are critical raw materials which are greatly needed in the advancement of many modern technologies. Due to the problems associated with the primary extraction of mining ores, the procurement of Sc and REEs from the secondary resources are currently explored adopting the principle of sustainability and circular economy. Herein, for the first time, the Electrodialysis (ED) technology based on electrochemical membrane separation process is successfully applied to separate and concentrate REEs from the diluted aqueous system. The overall performance of ED process in the recovery of Sc3+ ions from the wastewater was assessed by applied current, voltage, feed concentration, feed pH, co-ion competition and the overall energy consumption of the process. The REE recovery using the ED process was subjected to systematic investigations using both chronopotentiometric and chronoamperometric analyses. The results showed that ED process could be very promising in the recovery of Sc3+ ions (~99.52% removal) from the diluted wastewater, consuming the energy of only 0.26 kWh/m3 when operated at constant voltage mode (Sc3+ concentration of 20 ppm, pH 4, 1 h). |
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ISSN: | 1383-5866 1873-3794 1873-3794 |
DOI: | 10.1016/j.seppur.2020.117442 |