1. Enrichment of rare earths in magnesium sulfate leach solutions of ion-absorbed ores by extraction-precipitation.
- Author
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Su, Xiang, Wang, Yanliang, Su, Jia, Lai, Wei, Gao, Yun, and Sun, Xiaoqi
- Subjects
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MAGNESIUM sulfate , *ORES , *CHEMICAL oxygen demand , *RARE earth metals , *MAGNESIUM , *EMISSION standards , *CARBOXYLIC acids - Abstract
Magnesium sulfate (MgSO 4), a leaching agent for ion-absorption rare earth (RE) ores, can reduce the production of ammonia nitrogen wastewater and supply magnesium (Mg) for soil. Three novel solid extractants, i.e., 2,2′-(1,4-phenylenebis(oxy))dioctanoic acid (PPBOA), 2,2′-(1,2-phenylenebis(oxy))dioctanoic acid (OPBOA) and 2,2′-(1,3-phenylenebis(oxy))dioctanoic acid (MPBOA) were synthesized and used to enrich RE by extraction-precipitation strategy, which showed better selectivity and faster equilibrium. The precipitation rates of PPBOA, OPBOA and MPBOA on RE could reach 95.1%, 93.5% and 96.7% at the large liquid/solid phase ratio (450/1). Meanwhile, the purities of RE in the stripping solutions reached 96.1 wt%, 94.1 wt% and 96.2 wt%. Chemical oxygen demand (COD) values of raffinates from OPBOA and MPBOA were 56 mg/L and 69 mg/L, being lower than that of China national emission standard (100 mg/L). The concentration of enriched RE solution by MPBOA was 238.0 g/L, solid extractant and MgSO 4 raffinate could be recycled. Unlabelled Image • Three solid carboxylic acids are synthesized as solid extractants. • The strategy contributes to eliminating the ammonia nitrogen pollution. • The strategy has the larger liquid/solid phase ratio and greater enrichment ability. • Chemical oxygen demand (COD) values of raffinates are low. • Solid extractants and MgSO 4 raffinate in the strategy can be recycled. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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