J. Hinchliff scite author profile

The sorption behaviour of I À , Cs + , Ni 2+ , Eu 3+ , Th 4+ and UO 2 2+ on NRVB (Nirex reference vault backfill) a possible vault backfill, at pH 12.8 was studied. Sorption isotherms generated were compared to results obtained in the presence of cellulose degradation products (CDP). Whereas Cs was not affected by the presence of the organic compounds, a notable reduction in the sorption of Th and Eu to cement was observed. The results also indicated limited removal of Ni from solution (with or without an organic ligand) by sorption, the concentration in solution seemingly being determined solely by solubility processes. In the case of uranium, the presence of CDP increased the sorption to cement by almost one order of magnitude. Further studies into the uptake of CDP by cement are being undertaken to identify the mechanism(s) responsible.

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The solubility of nickel and its migration through the cementitious backfill of a geological disposal facility for nuclear waste

Felipe-Sotelo

Hinchliff

Field

et al. 2016

Journal of Hazardous Materials

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Retention of chlorine-36 by a cementitious backfill

Hinchliff

Felipe-Sotelo

et al. 2015

Mineral. mag.

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Radial diffusion experiments have been carried out to assess the migration of 36 Cl, as chloride, through a cementitious backfill material. Further experiments in the presence of cellulose degradation products were performed to assess the effect of organic ligands on the extent and rate of chloride diffusion. Results show that breakthrough of 36 Cl is dependent on chloride concentration: as the carrier concentration increases, both breakthrough time and the quantity retained by the cement matrix decreases. Experiments in the presence of cellulose degradation products also show a decrease in time to initial breakthrough. However, uptake at various carrier concentrations in the presence of organic ligands converges at 45% of the initial concentration as equilibrium is reached. The results are consistent with organic ligands blocking sites on the cement that would otherwise be available for chloride binding, though further work is required to confirm that this is the case. Post-experimental digital autoradiographs of the cement cylinders, and elemental mapping showed evidence of increased 36 Cl activity associated with black ash-like particles in the matrix, believed to correspond to partially hydrated glassy calciumsilicate-sulfate-rich clinker.

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J. Hinchliff

Radial diffusion of radiocaesium and radioiodide through cementitious backfill

Retardation of uranium and thorium by a cementitious backfill developed for radioactive waste disposal

Sorption of radionuclides to a cementitious backfill material under near-field conditions

The solubility of nickel and its migration through the cementitious backfill of a geological disposal facility for nuclear waste

Retention of chlorine-36 by a cementitious backfill

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