2019
DOI: 10.3390/en12101980
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Post-Closure Performance Assessment for Deep Borehole Disposal of Cs/Sr Capsules

Abstract: Post-closure performance assessment (PA) calculations suggest that deep borehole disposal of cesium (Cs)/strontium (Sr) capsules, a U.S. Department of Energy (DOE) waste form (WF), is safe, resulting in no releases to the biosphere over 10,000,000 years when the waste is placed in a 3–5 km deep waste disposal zone. The same is true when a hypothetical breach of a stuck waste package (WP) is assumed to occur at much shallower depths penetrated by through-going fractures. Cs and Sr retardation in the host rock i… Show more

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Cited by 7 publications
(16 citation statements)
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“…A detailed safety analysis and assessment of a general concept for DBD in Germany has not been performed. Studies on DBD in the U.S. considered a radionuclide transport around the borehole [39,40]. The radionuclide transport from that depth would exhibit an extremely low release of radionuclides to the biosphere.…”
Section: Discussionmentioning
confidence: 99%
“…A detailed safety analysis and assessment of a general concept for DBD in Germany has not been performed. Studies on DBD in the U.S. considered a radionuclide transport around the borehole [39,40]. The radionuclide transport from that depth would exhibit an extremely low release of radionuclides to the biosphere.…”
Section: Discussionmentioning
confidence: 99%
“…A more traditional post-closure performance assessment study is undertaken for deep borehole disposal of Cs/Sr capsules in the third paper on this topic [7]. The study considers waste emplacement of 0.21-m-diameter waste packages in crystalline rock at a depth of about 5000 m. The waste emplacement zone is 534 m deep, with a 2000-m-deep seal zone.…”
Section: Performance Assessmentsmentioning
confidence: 99%
“…Waste types, including waste types suitable for deep borehole disposal and the circumstances under which a national waste management programme might wish to consider deep borehole disposal [1], and the status of deep boreholes as a potential option for disposal of high-level waste in Germany [2]; • Engineered barrier performances, including corrosion performances of engineered barrier systems [3] and potential cementing systems suitable for deep borehole disposal [4]; • Performance assessments, including the thermal evolution around heat-generating waste for a wide range of material properties and disposal configurations [5], geochemical analyses of deep brines focussed on fluid-rock interactions [6] and post-closure performance assessment calculations for the deep borehole disposal of Cs/Sr capsules [7] and • Safety cases, including deep horizontal drill-holes in sedimentary, metamorphic or igneous rocks [8] and safety case aspects for deep vertical boreholes [9].…”
Section: Introductionmentioning
confidence: 99%
“…In the USA, this approach has been suggested [16] for disposal of separated 137 Cs and 90 Sr, packaged from the 1960s to the 1980s in about 2000 small (c. 80 mm diameter x 550 mm length) capsules with a total volume of about 6 m 3 . This small volume contained about 4 × 10 18 Bq of radioactivity in 2006 [17], which will decline by more than half by 2050, owing to the short half-lives of the principal radionuclides in the capsules (although there is a small amount of much longer lived 135 Cs present as well). Safety assessments have been carried out to support the DBD disposal concept for these materials [18].…”
Section: High Concentration Of Long-lived Radionuclidesmentioning
confidence: 99%
“…This small volume contained about 4 × 10 18 Bq of radioactivity in 2006 [17], which will decline by more than half by 2050, owing to the short half-lives of the principal radionuclides in the capsules (although there is a small amount of much longer lived 135 Cs present as well). Safety assessments have been carried out to support the DBD disposal concept for these materials [18]. The very high activity of these wastes, combined with their small volume, appears to make them ideal candidates for DBD, but their short half-lives challenges this perspective: after around 1000 years of decay these wastes would be classifiable as low-level waste.…”
Section: High Concentration Of Long-lived Radionuclidesmentioning
confidence: 99%