UPSCALING OF URANIUM(VI) TRANSPORT IN CONTAMINATED SOIL AND GROUNDWATER
Approximately 3m3 of uranium contaminated aquifer sediments were collected from the Naturita UMTRA site in southwestern Colorado. Two intermediate scale tanks (2.44 m x 1.22 m x 7.6 cm, and 2.44m x 0.61m x 7.6cm) were constructed and filled with size sorted aquifer material. The larger tank was filled in a homogenous manner using only the <2mm fraction. For the smaller tank, the <2mm fraction was re-sieved into 0-0.250mm and 0.250-2mm and these two fractions were packed in a heterogeneous fashion. Bulkhead fittings were installed through the side of the tank wall to allow for spatial measurements of pressure head, as well as withdrawal of water samples to determine pH, [U(VI)]aq, [Ca(II)]aq, and alkalinity.
Uranium distribution within the tank was found to vary with pH, alkalinity, dissolved calcium and the rate of release of U from the different particle size categories and the nature of the heterogeneity distribution. In the larger tank, effluent uranium concentrations ranged from 7.26mM at early time points, and decreased to ~1.5mM as the tank began to exhibit tailing behavior. For the aquifer material and ground water composition under study, it is suspected that the major control on both pH and alkalinity is the dissolution/precipitation of calcite. Modeling is underway using the code CRUNCH (Steefel, 2005) to simulate the intermediate-scale tank behavior based on the experimental data of U desorption at the bench-scale.