Selective leaching and recovery of neodymium from NdFeB carbonyl residues

•A green DES was prepared for selective recovery of Nd from NdFeB carbonylation slag.•Under optimal leaching conditions, the Nd/Fe selectivity factor exceeded 3000.•28.07 % of the Nd was extracted, while the Fe leaching rate was less than 0.01 %.•The Nd in the DES could be extracted by using P204-su...

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Published inSeparation and purification technology Vol. 329; p. 125137
Main Authors Yang, Qiang, Li, Yida, Li, Bo, Duan, Panpan, Ren, Zhongqi, Zhou, Zhiyong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.01.2024
Subjects
Deep eutectic solvent
NdFeB carbonylation slag
Neodymium oxalate
P204
Selective leaching
Neodymium oxalate
Deep eutectic solvent
P204
Selective leaching
NdFeB carbonylation slag
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Abstract •A green DES was prepared for selective recovery of Nd from NdFeB carbonylation slag.•Under optimal leaching conditions, the Nd/Fe selectivity factor exceeded 3000.•28.07 % of the Nd was extracted, while the Fe leaching rate was less than 0.01 %.•The Nd in the DES could be extracted by using P204-sulfonated kerosene system.•The Nd could be recovered as a high-purity Nd2O3 obtained from neodymium oxalate. Neodymium iron boron (NdFeB) is a widely-used magnetic material; however, the production process generates significant amounts of rare earth element-rich waste. Refining the Fe via carbonylation leads to carbonylated slag containing 0.2–2.0 % rare earth elements. The extraction of trace rare earth elements from waste materials has not been reported, although the Nd recovery would be economically and environmentally beneficial. In this work, we calcinated NdFeB carbonylation slag (with less than 0.3 % rare earth content) and identified a green deep eutectic solvent (DES) that can selectively recover Nd. The best performing DES comprised a 2:1 M ratio of ethylene glycol to maleic acid and was highly selective for Nd and inert toward Fe, thus enabling effective separation. Specifically, the Nd/Fe selectivity factor exceeded 3000, i.e., under optimal conditions, 28.07 % of the Nd was extracted, while the Fe leaching rate was less than 0.01 %. The Nd in the DES was subsequently extracted and then enriched by reverse extraction using a di-(2-ethylhexyl)phosphoric acid (P204)-sulfonated kerosene system and hydrochloric acid. DES still had recyclability after extraction. Finally, the Nd was precipitated by adding oxalic acid to form the rare earth oxalate, which was calcined to obtain a high-purity Nd2O3. The strategy applied in this work based on DES and conventional organic extraction represents a promising and sustainable approach for the selective recovery of trace rare earth elements.
AbstractList •A green DES was prepared for selective recovery of Nd from NdFeB carbonylation slag.•Under optimal leaching conditions, the Nd/Fe selectivity factor exceeded 3000.•28.07 % of the Nd was extracted, while the Fe leaching rate was less than 0.01 %.•The Nd in the DES could be extracted by using P204-sulfonated kerosene system.•The Nd could be recovered as a high-purity Nd2O3 obtained from neodymium oxalate. Neodymium iron boron (NdFeB) is a widely-used magnetic material; however, the production process generates significant amounts of rare earth element-rich waste. Refining the Fe via carbonylation leads to carbonylated slag containing 0.2–2.0 % rare earth elements. The extraction of trace rare earth elements from waste materials has not been reported, although the Nd recovery would be economically and environmentally beneficial. In this work, we calcinated NdFeB carbonylation slag (with less than 0.3 % rare earth content) and identified a green deep eutectic solvent (DES) that can selectively recover Nd. The best performing DES comprised a 2:1 M ratio of ethylene glycol to maleic acid and was highly selective for Nd and inert toward Fe, thus enabling effective separation. Specifically, the Nd/Fe selectivity factor exceeded 3000, i.e., under optimal conditions, 28.07 % of the Nd was extracted, while the Fe leaching rate was less than 0.01 %. The Nd in the DES was subsequently extracted and then enriched by reverse extraction using a di-(2-ethylhexyl)phosphoric acid (P204)-sulfonated kerosene system and hydrochloric acid. DES still had recyclability after extraction. Finally, the Nd was precipitated by adding oxalic acid to form the rare earth oxalate, which was calcined to obtain a high-purity Nd2O3. The strategy applied in this work based on DES and conventional organic extraction represents a promising and sustainable approach for the selective recovery of trace rare earth elements.
ArticleNumber 125137
Author Duan, Panpan
Li, Bo
Ren, Zhongqi
Zhou, Zhiyong
Yang, Qiang
Li, Yida
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  surname: Zhou
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  email: zhouzy@mail.buct.edu.cn
  organization: State Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, China
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crossref_primary_10_1016_j_seppur_2024_128498
crossref_primary_10_32390_ksmer_2023_60_5_284
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Keywords Neodymium oxalate
Deep eutectic solvent
P204
Selective leaching
NdFeB carbonylation slag
Language English
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Snippet •A green DES was prepared for selective recovery of Nd from NdFeB carbonylation slag.•Under optimal leaching conditions, the Nd/Fe selectivity factor exceeded...
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SubjectTerms Deep eutectic solvent
NdFeB carbonylation slag
Neodymium oxalate
P204
Selective leaching
Title Selective leaching and recovery of neodymium from NdFeB carbonyl residues
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