Controls on Ra during raffinate neutralization at the Key Lake uranium mill, Saskatchewan, Canada

This study was conducted to define the geochemical controls on ²²⁶Ra during raffinate (pH = 1.2) neutralization to pH 10 at the Key Lake U mill in northern Saskatchewan, Canada. High activities (120–150 Bq/L) of aqueous phase ²²⁶Ra are present in raffinate produced during milling of U ore. The solubility control of ²²⁶Ra in the SO₄-rich, hydrometallurgical raffinate solutions often involves the addition of BaCl₂ to form a radium-barite co-precipitate (Ba(Ra)SO₄). As such, neutralization experiments were conducted with samples of mill raffinate using Ca(OH)₂ or NaOH with and without the addition of BaCl₂. Radium-226 activity decreased from 150 to <4 Bq/L for all combinations of neutralizing agents with Ca(OH)₂ + BaCl₂ being the most effective combination (final activity ∼1.0 Bq/L; ∼99.3% removal). In the absence of BaCl₂, Ca(OH)₂ more efficiently removed ²²⁶Ra than NaOH between pH 4 and 8, due to the co-precipitation of ²²⁶Ra with gypsum. Overall, neutralization with the addition of BaCl₂ reduced ²²⁶Ra activities at lower pH values (by pH 4.5), due to co-precipitation of ²²⁶Ra with BaSO₄. At varying concentrations of BaCl₂, aqueous phase activities of ²²⁶Ra converged, but did not attain steady-state values during neutralization and would continue to decrease with time. Sequential extractions indicated that ²²⁶Ra in precipitates formed during neutralization of the mill raffinate is dominated by amorphous and crystalline Fe hydroxide phases, consistent with raffinate neutralization experiments that showed that adsorption onto ferrihydrite can remove most ²²⁶Ra in the raffinate. Data generated in this study are being used to define the long-term geochemical controls on ²²⁶Ra in U mill processes and tailings.