Development of a reactive zone technology for simultaneous in situ immobilisation of radium and uranium

Simultaneous in situ immobilisation of uranium (U) and radium (²²⁶Ra) by injectible amounts of grey cast iron (gcFe), nano-scale iron (naFe) and a gcFe/MnO₂ mixture (1:1) was studied in batch and column tests. Both 0.5 g/L naFe and gcFe are effective in ²²⁶Ra and U removal from mine water, whereas MnO₂ addition clearly increased the efficiency of gcFe for ²²⁶Ra and U immobilisation. In a column test with 0.6 wt% gcFe/MnO₂ mixture (1:1), neither ²²⁶Ra nor U was detected in the effluent after replacement of 45 pore volumes. A sequential extraction under flow condition revealed ²²⁶Ra to be mostly occluded in manganese oxides. Uranium was mostly sorbed onto poorly crystalline iron hydroxides, but a significant part was found to be occluded in manganese oxides also. The results of this study suggest that MnO₂ promotes iron hydroxide formation under slightly reducing environmental conditions resulting in an increased pollutant retention capacity.