Recovery of rare earths from acid leach solutions of spent nickel-metal hydride batteries using solvent extraction

The extraction of rare earths from acid leach solutions of spent nickel-metal hydride batteries using a primary amine ex- tractant of N 1923 was studied. The effects of feed pH, temperature, agitation rate and time on the extraction of rare earths, as well as stripping agent composition and concentr...

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Bibliographic Details
Published inJournal of rare earths Vol. 33; no. 12; pp. 1348 - 1354
Main Author 夏允 肖连生 田吉英 李兆洋 曾理
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2015
Subjects
rare earths
recovery
solvent extraction
spent nickel-metal hydride battery
原料配比
回收
溶剂萃取法
稀土元素
稀土草酸盐
酸浸出液
金属氢化物镍电池
镍氢电池
solvent extraction
recovery
spent nickel-metal hydride battery
rare earths
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ISSN1002-0721
2509-4963
DOI10.1016/s1002-0721(14)60568-8

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Summary:The extraction of rare earths from acid leach solutions of spent nickel-metal hydride batteries using a primary amine ex- tractant of N 1923 was studied. The effects of feed pH, temperature, agitation rate and time on the extraction of rare earths, as well as stripping agent composition and concentration, phase ratio on the stripping were investigated. In addition, the extraction isotherm was determined. The pilot plant test results showed that the extraction of rare earths reached 99.98% after a five-stage counter current extraction. The mixed rare earths oxalates with the 99.77% purity of rare earth elements and impurity content less than 0.05% were obtained by the addition of oxalic acids in loaded strip liquors. The extractant exhibited good selectivity of rare earths over base metals of iron, nickel, copper and manganese.
Bibliography:rare earths; spent nickel-metal hydride battery; recovery; solvent extraction
11-2788/TF
The extraction of rare earths from acid leach solutions of spent nickel-metal hydride batteries using a primary amine ex- tractant of N 1923 was studied. The effects of feed pH, temperature, agitation rate and time on the extraction of rare earths, as well as stripping agent composition and concentration, phase ratio on the stripping were investigated. In addition, the extraction isotherm was determined. The pilot plant test results showed that the extraction of rare earths reached 99.98% after a five-stage counter current extraction. The mixed rare earths oxalates with the 99.77% purity of rare earth elements and impurity content less than 0.05% were obtained by the addition of oxalic acids in loaded strip liquors. The extractant exhibited good selectivity of rare earths over base metals of iron, nickel, copper and manganese.
ISSN:1002-0721
2509-4963
DOI:10.1016/s1002-0721(14)60568-8