Long-term cement corrosion in chloride-rich solutions relevant to radioactive waste disposal in rock salt - Leaching experiments and thermodynamic simulations
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Publication Details
Output type: Journal article
Author list: Bube C., Metz V., Bohnert E., Garbev K., Schild D., Kienzler B.
Publisher: Elsevier
Publication year: 2013
Journal: Physics and Chemistry of the Earth, Parts A/B/C (1474-7065)
Volume number: 64
Start page: 87
End page: 94
Number of pages: 8
ISSN: 1474-7065
URL: http://api.elsevier.com/content/abstract/scopus_id:84884349656
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Open access status: closed
Abstract
Low- and intermediate-level radioactive wastes are frequently solidified in a cement matrix. In a potential repository for nuclear wastes, the cementitious matrix is altered upon contact with solution and the resulting secondary phases may provide for significant retention of the radionuclides incorporated in the wastes. In order to assess the secondary phases formed upon corrosion in chloride-rich solutions, which are relevant for nuclear waste disposal in rock salt, leaching experiments were performed. Conventional laboratory batch experiments using powdered hardened cement paste in MgCl-rich solutions were left to equilibrate for up to three years and full-scale cemented waste products were exposed to NaCl-rich and MgCl-rich solutions for more than twenty years, respectively. Solid phase analyses revealed that corrosion of hardened cement in MgCl-rich solutions advanced faster than in NaCl-rich solutions due to the extensive exchange of Mg from solution against Ca from the cementitious solid. Thermodynamic equilibrium simulations compared well to results at the final stages of the respective experiments indicating that close to equilibrium conditions were reached. At high cement product to brine ratios (>0.65gmL), the solution composition in the laboratory-scale experiments was close to that of the full-scale experiments (cement to brine ratio of 2.5gmL) in the MgCl systems. The present study demonstrates the applicability of thermodynamic methods used in this approach to adequately describe full-scale long-term experiments with cemented waste simulates. © 2012 Elsevier Ltd.
Keywords
Cement corrosion, Long-term experiments, Radioactive waste, Thermodynamic simulation
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