Heat-induced changes in speciation and extraction of uranium associated with sheet silicate minerals

• Published in: Applied geochemistry Vol. 18; no. 8; pp. 1121 - 1135
• Main Authors: Ritherdon, Benjamin, Hughes, Colin R., Curtis, Charles D., Livens, Francis R., Mosselmans, J.Fred W., Richardson, Steve, Braithwaite, Anna
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 01.08.2003; Elsevier
• Subjects: Earth sciences; Earth, ocean, space; Engineering and environment geology. Geothermics; Exact sciences and technology; Geochemistry; Pollution, environment geology; models; muscovite; X-rays; mica; heat treatment; dehydroxylation; faults; smectite; speciation; montmorillonite; materials; spectroscopy; temperature; clay minerals; silicates; electron microscopy; sheet silicates; dehydration; ions; uranium; thermal analysis
• ISSN: 0883-2927; 1872-9134
• DOI: 10.1016/S0883-2927(02)00244-5

Three samples of gouge from a U-mineralised fault, and two model samples, montmorillonite and muscovite, spiked with U, were heat-treated at a range of temperatures up to 1100 °C. Mineralogical changes were followed by thermal analysis, powder XRD and electron microscopy, and U extractability was measured by extraction with NH 4 +. Changes in U speciation in the montmorillonite sample were followed using EXAFS spectroscopy. On heating, the minerals progressively dehydrate, dehydroxylate and eventually decompose to form new phases in a glassy matrix. In the case of montmorillonite (90% of U extractable from unheated material), U extractability increased slightly on heating to temperatures around 400 °C. Almost 50% of U was extracted from unheated muscovite, and this increased slightly by 450 °C. Above 500–600 °C, U extractability from both montmorillonite and muscovite declined to very low levels, reflecting dehydration of the uranyl ion and trapping in the new phases and glassy matrix. Uranium extractability from the natural samples was much lower in all cases (0.25–5% of the total before heating). In 2 samples, a significant increase in U extraction was associated with dehydroxylation at around 600 °C, followed by a decrease to very low levels at higher temperatures. Uranium extraction from the third natural sample, which contained X-ray amorphous U minerals, decreased steadily on heating. The results show that changes in U extraction can be related to structural and morphological changes in sheet silicate minerals. Heat treatment has potential to fix U but only if temperatures above 800 °C are reached. If only lower temperatures, in the range 400–600 °C, are used, then U extraction may increase.