RES³T - Rossendorf Expert System for Surface and Sorption Thermodynamics

The sorption of uranyl onto hydrous ferric oxide (HFO) or hematite was measured by discontinuously titrating the suspensions with uranyl at pH 5.9, 6.8, and 7.8 under P_CO2 = 10^-3.5atm (sorption isotherms). Batch reactors were used with equilibration times up to 48 days. Sorption of 1 μM uranyl onto HFO was also measured versus pH (sorption edge). A diffuse double layer surface complexation model was calibrated by invoking three sorption species that were consistent with spectroscopic evidence for predominance of bidentate complexes at neutral pH and uranyl−carbonato complexes:  >SOH:UO₂OH⁺¹, (>SO)₂:UO₂CO₃^-2, and (>SO)₂:(UO₂)₃(OH)₅^-1. The model was consistent with previously published isotherm and edge data. The model successfully predicted sorption data onto hematite, only adjusting for different measured specific surface area. Success in application of the model to hematite indicates that the hydrated surface of hematite has similar sorptive reactivity as HFO.