首页|Separation of La(Ⅲ),Ce(Ⅳ)and Ca(Ⅱ)from bastnaesite using acidic phosphonic chitosan and rotating disk membrane
Separation of La(Ⅲ),Ce(Ⅳ)and Ca(Ⅱ)from bastnaesite using acidic phosphonic chitosan and rotating disk membrane
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The separation of rare earths is difficult due to their similar properties and the complex characteristics of associated vein ores.Complexation-ultrafiltration(CUF)and shear induced orderly dissociation coupling with ultrafiltration(SIODUF)were used to separate metal ions(M,M=La(Ⅲ),Ce(Ⅳ)and Ca(Ⅱ))from simulated bastnaesite leaching solution using acidic phosphonic chitosan(aPCS)and rotating disk membrane.Effect of simultaneous removal of metallic ions was investigated by CUF,and suitable con-ditions were obtained for C/M 10.0(mass ratio of complexant to metal ions)and pH 5.0.The shear stabilities of aPCS-M complexes were explored at different pH values and the results show that the complexes can dissociate at a certain rotational speed,the critical one.The critical shear rates of aPCS-La,aPCS-Ce and aPCS-Ca complexes at pH 5.0 were calculated as 1.42 x 105,1.69 x 105 and 9.75 x 104 s-1,respectively.The order of complexes shear stability is aPCS-Ca<aPCS-La<aPCS-Ce.The high selective separation of M and regeneration of aPCS were achieved by SIODUF in the light of the difference of aPCS-M complexes shear stabilities.The separation coefficients βLa/ce and βca/La reach 31.2 and 53.9,respectively.
BastnaesiteRare earthsComplexation-ultrafiltrationAcidic phosphonic chitosanRotating disk membrane
Dandan Lu、Wenhui Li、Linlin Fan、Yunren Qiu
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School of Chemistry and Chemical Engineering,Central South University,Changsha,410083,China
国家自然科学基金Fundamental Research Funds for the Central Universities of Central South University,China
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