Adsorption of Ce(IV) Anionic Nitrato Complexes onto Anion Exchangers and Its Application for Ce(IV) Separation from Rare Earths(III)

Adsorption of Ce(IV) Anionic Nitrato Complexes onto Anion Exchangers and Its Application for Ce(IV) Separation from Rare Earths(III)

Ce(IV) nitrato complexes were adsorbed on two anion exchangers based on polyvinyl pyridine (PVP) and quaternized PVP incorporated into porous silica matrix. The effect of nitric acid concentration (0.5∼6 mol·L −1) and temperature (278∼318 K) on Ce(IV) sorption efficiency was investigated. Sorption i...

Full description

Saved in:
Bibliographic Details
Published in:Journal of rare earths Vol. 24; no. 4; pp. 385 - 391
Main Authors: Ludek, Jelinek, Wei, Yuezhou, Mikio, Kumagai
Format: Journal Article
Language:English
Published: Elsevier B.V 01-08-2006
Nuclear Chemistry and Chemical Engineering Center, Institute of Research and Innovation, 1201 Takada, Kashiwa, 277-0861 Chiba-prefecture, Japan
Subjects:
ion exchange
O614.33
rare earths
separation
tetravalent cerium
O614.33
separation
tetravalent cerium
ion exchange
rare earths
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Ce(IV) nitrato complexes were adsorbed on two anion exchangers based on polyvinyl pyridine (PVP) and quaternized PVP incorporated into porous silica matrix. The effect of nitric acid concentration (0.5∼6 mol·L −1) and temperature (278∼318 K) on Ce(IV) sorption efficiency was investigated. Sorption increased with increasing nitric acid concentration, indicating that [Ce(NO 3) 6] 2− complex is the main adsorbed Ce(IV) species. Oxidation of sorbents by adsorbed Ce(IV) species resulting in Ce(III) release to the solution was observed. Pyridine based anion exchangers exhibited higher oxidation stability compared to the commercial strong base anion exchanger. Ce(IV) reduction was temperature dependent and obeyed pseudo-first-order reaction kinetics. Column separation of Ce(IV) from La(III) and Y(III) was carried out from 6 mol·L −1 nitric acid with PVP based anion exchanger. Reasonable Ce(IV) breakthrough capacity (0.7 mol·kg −1 PVP) was achieved. No remarkable decrease of capacity was observed within 3 consequent runs. In contrast, Ce(III) leakage due to reduction decreased and breakthrough capacity slightly increased. This effect was more pronounced with increasing temperature. Regeneration with 0.1 mol·L −1 nitric acid was successful (recovery 100%±4%) and Ce solution of high purity (>99.97%) with respect to La and Y content was gained.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:1002-0721
2509-4963
DOI:10.1016/S1002-0721(06)60129-4