Abstract
Rare earth (RE) are critical elements in many technologies, their clean production has attracted widespread attentions. To develop clean separation technology for RE, a novel oxoacetate ionic liquid (IL) extractant was developed to recovery RE elements and Thorium (Th) in the radioactive waste residue from ion-absorbed RE separation industry. The IL [N-methyl-N,N-dioctyloctan-1-aminium][2-(bis(2-ethylhexyl)amino)-2-oxoacetate] ([N1888][DEAO]) had good selectivity to RE and Th, which helps to remove radioactive Th and recover RE from waste residue leachate. RE and Th could be effectively separated with 0.02 mol/L [N1888][DEAO]. Maximum extraction capacity of Th reached 1.02 g/L, which could meet the needs of Th removal in the waste residue. A combination of saturated NaC2O4 solution and NaOH solution was used for the stripping of Th. After five cycles, the extraction efficiency of Th remained above 90 %. After four-stage extraction with [N1888][DEAO] and three-stage scrubbing, a RE solution with Th content less than 0.6 mg/L was obtained. It is fully achieved that there is no excess wastewater and waste salt in the fractional process. The RE elements in the waste residue can be effectively recycled, also the collection of the radioactive element Th can be realized.
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