Selective thorium and uranium extraction from monazite: II. Approaches to enhance the removal of radioactive contaminants

In the first paper of this series, the selective leaching of thorium and uranium from ground monazite with ammonium oxalate was found to depend, inter alia, on their solubility in the lixiviant, which depended on the solution pH, phosphate concentration and temperature. These actinides were released...

Full description

Saved in:
Bibliographic Details
Published in:Hydrometallurgy 2015-05, Vol.155, p.161-167
Main Authors: Lapidus, G.T., Doyle, F.M.
Format: Article
Language:English
Subjects:
Actinide leaching
Complexing ligands
Hydrometallurgy
Leaching
Monazite
Oxalates
Phosphates
Rare earth metals
Thorium
Ultrasonic and NaOH pretreatments
Uranium
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In the first paper of this series, the selective leaching of thorium and uranium from ground monazite with ammonium oxalate was found to depend, inter alia, on their solubility in the lixiviant, which depended on the solution pH, phosphate concentration and temperature. These actinides were released from the monazite matrix during the solution-mediated transformation of the rare earths to oxalates. The latter appeared to eventually passivate the monazite, limiting thorium and uranium leaching. The present article examines the effect of different pretreatments, leach additives, and sonication on the thorium and uranium extraction, and the recovery of the rare earth elements contained in the monazite. Different approaches were explored to suppress the re-precipitation of thorium as phosphate: strongly complexing ligands (citrate and EDTA) and the addition of ferric or aluminum ions that were expected to selectively precipitate phosphate from solution. However, none of these proved successful in experimental testing. Pretreatment with concentrated sodium hydroxide solutions, which removed most of the phosphate, yielded a residue that was amenable to selective leaching of thorium and uranium by oxalate and subsequent extraction of the rare earths with citrate. •NaOH pretreatments, additives, and sonication were evaluated for Th and U extraction.•Strongly complexing agents (citrate and EDTA) were unsuccessful in promoting Th dissolution.•Mild pretreatments with concentrated NaOH solutions removed most of the PO43− ion.•The residues from these pretreatments showed enhanced leaching of Th and U by oxalate.
ISSN:0304-386X
1879-1158
DOI:10.1016/j.hydromet.2015.03.015