Ground water colloid properties from the Bangombe system

The concentration and the role of colloids in the transport of elements in the vicinity of a fossil reactor at Bangombe, Gabon, were assessed. Colloid sampling was conducted in seven boreholes around and in the extinguished natural reactor. The ground waters are of Na-Mg-Ca-HCO3 type, with variable salinities, pH 4.6-6.8 and anaerobic Eh values. Filtered ground water and colloid samples were taken from the reactor and the surroundings. Filtered fluids and colloid samples collected on membranes and resuspended in solution were analysed by ICP- MS and ICP-AES in order to examine the element association in the colloid phase within the size range 3000 to 400 to 50 nm. The colloid concentrations for the size 400 to 50 nm range from 80 to 300 ng ml (1). They consist of silica particles associated with ferrihydrite coated with organics. Trace element results show that metals including Pb, Sc, Y, La, Ce, Pr, Nd, Bi, Th and U are associated to various degrees with the colloid phase. The distribution ratios of these trace elements between the water and the colloid phase (Kp) were experimentally determined. The high Pb distribution ratios of 10(+7) ml g (1) are specifically discussed. Values range from 10(+6) to 10(+5) ml g (1)for the trivalent elements (Sc, Y, La, Ce,....., Bi). For uranium, a Kp of the order of 10(+5) ml g (1) may be calculated and compared with data gained using the surface complexation model. These Kp values suggest that the uranium is partially sorbed or associated with ground water colloids. Measurements from the reactor zone show that about 2-4% of the uranium is associated with the colloid phase, which contributes partially to the uranium transport. The rather low colloid concentrations are due to the relatively high concentrations of Ca, Mg and Na in these quasi-neutral waters. These soluble elements contribute to the attachment of the colloids, restricting their transport. This indicates that the colloid phase may not be an important transport medium for the radionuclides in the Bangombe system if their association is reversible. The Bangombe colloid results are compared with those studied for other systems. (C) 2014 Elsevier Ltd. All rights reserved.