| Autor: |
Pudollek, Susanne, Guillemot, Typhaine, Li, Xiaoshuo, Bykov, Valentyn |
| Předmět: |
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| Zdroj: |
Safety of Nuclear Waste Disposal; 2023, Vol. 2, p97-96, 1p |
| Abstrakt: |
Carbon-14 (14 C) is an important, dose-determining contributing radionuclide in a deep geological repository for low and intermediate level radioactive waste (L/ILW). 14 C is relevant for safety assessments as it can be present both as dissolved and gaseous species in the disposal facility and the host rock, and 14 C-organic compounds migrate in the near field and the geosphere due to weak interaction with mineral surfaces in alkaline to near-neutral conditions. Thus, the chemical form of the 14 C-bearing carbon species dictates the routes of 14 C migration in the engineered barrier system of a deep geological repository and the surrounding host rock and therefore determines the long-term contribution of 14 C to dose release from a repository for radioactive waste. Furthermore, 14 C released from a deep repository would be subject to a certain accumulation in the biosphere, given the role of carbon as main building block of any life form on earth. The contribution will illustrate Nagra's recent progress within the 14 C dose assessment model chain for a L/ILW deep geological repository to address the quantification of uncertainties. The systematic approach began by incorporating a realistic best-estimate plus uncertainty description of 14 C activities within the Swiss model inventory of radioactive materials assembled specifically for the purpose of the general licence application. In this context state-of-the-art activation calculations for expected reactor and decommissioning wastes as well as extensive inquiries into origin and use of 14 C within medicine, research, and industry played a key role. Uncertainties were screened for relevance and main contributing factors taken into account, differentiating between the characterisation methods of the relevant waste streams. Based on detailed knowledge of the expected activity and material inventory, release rates for the release pathways through congruent and instantaneous release processes as well as resulting chemical species could be defined with confidence. Key findings and characteristics of the 14 C source term will be highlighted and discussed. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
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