The impact of mineralogy in the U(VI)-Ca-PO4 system on the environmental availability of uranium

Kinetic dissolution studies were conducted on four prominent U-Ca-PO4 miner als (metaschoepite, becquerelite, chemikovite and metaautunite). Synthetic samples were contacted with four extractants (acetic acid, deionized water, EDTA and sodium bicarbonate) at room temperature at two concentrations, 10 0 mM and 1 mM. Dissolution progress was monitored by periodic sampling for dissolved U, and dissolution rates were obtained from fits to a three term exponential model. Significant Variations were observed in the rate and ext ent of dissolution among the minerals examined. The uranyl phosphates chemi kovite and metaautunite proved resistant to dissolution in non-carbonate sy stems, with dissolution half-times of days to weeks in 100 mM systems and w eeks to years in 1 mM systems. In contrast, the uranyl oxide hydrates schoe pite and becquerelite were solubilized over much shorter time scales. While 100 mM bicarbonate was successful in dissolving U in all forms, dissolutio n rates varied among the four minerals. Overall, EDTA was the least sensiti ve to a 100 to 1 mM drop in its concentration in its solubilization of all four mineral phases, underscoring the importance of organic complexation fo r the environmental mobility of uranium.