posted on 2015-11-17, 00:00authored byEmily
L. Tran, Ofra Klein-BenDavid, Nadya Teutsch, Noam Weisbrod
Migration
of colloids may facilitate the transport of radionuclides
leaked from near surface waste sites and geological repositories.
Intrinsic colloids are favorably formed by precipitation with carbonates
in bicarbonate-rich environments, and their migration may be enhanced
through fractured bedrock. The mobility of Ce(III) as an intrinsic
colloid was studied in an artificial rainwater solution through a
natural discrete chalk fracture. The results indicate that at variable
injection concentrations (between 1 and 30 mg/L), nearly all of the
recovered Ce takes the form of an intrinsic colloid of >0.45 μm
diameter, including in those experiments in which the inlet solution
was first filtered via 0.45 μm. In all experiments, these intrinsic
colloids reached their maximum relative concentrations prior to that
of the Br conservative tracer. Total Ce recovery from experiments
using 0.45 μm filtered inlet solutions was only about 0.1%,
and colloids of >0.45 μm constituted the majority of recovered
Ce. About 1% of Ce was recovered when colloids of >0.45 μm
were
injected, indicating the enhanced mobility and recovery of Ce in the
presence of bicarbonate.