Sequential Recovery of Critical Metals from Leached Liquor of Processed Spent Lithium-Ion Batteries

IF 4.6 4区化学 Q2 ELECTROCHEMISTRY

Batteries Pub Date : 2023-11-09 DOI:10.3390/batteries9110549

Ayorinde Emmanuel Ajiboye, Trevor L. Dzwiniel

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Abstract

The processing and extraction of critical metals from black mass is important to battery recycling. Separation and recovery of critical metals (Co, Ni, Li, and Mn) from other metal impurities must yield purified metal salts, while avoiding substantial losses of critical metals. Solvent extraction in batch experiments were conducted using mixed metal sulphates obtained from the leach liquor obtained from spent and shredded lithium-ion batteries. Selective extraction of Mn2+, Fe3+, Al3+ and Cu2+ from simulated and real leached mixed metals solution was carried out using di-2-ethylhexylphophoric acid (D2EPHA) and Cyanex-272 at varying pH. Further experiments with the preferred extractant (D2EPHA) were performed under different conditions: changing the concentration of extractant, organic to aqueous ratio, and varying the diluents. At optimum conditions (40% v/v D2EPHA in kerosene, pH 2.5, O:A = 1:1, 25 °C, and 20 min), 85% Mn2+, 98% Al3+, 100% Fe3+, and 43% Cu2+ were extracted with losses of only trace amounts (<5.0%) of Co2+, Ni2+, and Li+. The order of extraction efficiency for the diluents was found to be kerosene > Exxal-10 >>> dichloromethane (CH2Cl2) > toluene. Four stages of stripping of metals loaded on D2EPHA were performed as co-extracted metal impurities were selectively stripped, and a purified MnSO4 solution was produced. Spent extractant was regenerated after Fe3+ and Al3+ were completely stripped using 1.0 M oxalic acid (C2H2O4).

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废旧锂离子电池浸出液中关键金属的顺序回收

从黑质中提取关键金属对电池的回收利用具有重要意义。从其他金属杂质中分离和回收关键金属(Co、Ni、Li和Mn)必须产生纯化的金属盐，同时避免关键金属的大量损失。采用从废锂离子电池和碎锂离子电池的浸出液中获得的混合金属硫酸盐进行了批量溶剂萃取实验。用二乙基己基磷酸(D2EPHA)和Cyanex-272在不同ph值下对模拟和真实的混合金属浸出液中Mn2+、Fe3+、Al3+和Cu2+进行了选择性萃取，并在不同的萃取剂浓度、有机水比和稀释剂条件下对优选萃取剂D2EPHA进行了实验。在最佳条件下(煤油中40% v/v D2EPHA, pH 2.5, O:A = 1:1, 25°C, 20 min)，可提取85% Mn2+， 98% Al3+， 100% Fe3+和43% Cu2+，仅损失微量(<5.0%) Co2+， Ni2+和Li+。稀释剂的萃取效率依次为煤油和煤油;Exxal-10祝辞祝辞祝辞二氯甲烷(CH2Cl2);甲苯。对负载在D2EPHA上的金属进行了4个阶段的剥离，并对共萃取金属杂质进行了选择性剥离，得到了纯化的MnSO4溶液。用1.0 M草酸(C2H2O4)完全剥离Fe3+和Al3+，再生废萃取剂。

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