Fundamental Research on Radiochemistry of Geological Nuclear Waste Disposal

Currently, 5 · 10 Bq of radioactive waste originating from the use of nuclear power for energy production, and medicine, industry and research, is maintained in Switzerland at intermediate storage facilities. Deep geological disposal of nuclear waste is considered as the most reliable and sustainabl...

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Veröffentlicht in:Chimia 2020-12, Vol.74 (12), p.1000-1009
Hauptverfasser: Churakov, Sergey V, Hummel, Wolfgang, Fernandes, Maria Marques
Format: Artikel
Sprache:eng
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Zusammenfassung:Currently, 5 · 10 Bq of radioactive waste originating from the use of nuclear power for energy production, and medicine, industry and research, is maintained in Switzerland at intermediate storage facilities. Deep geological disposal of nuclear waste is considered as the most reliable and sustainable long-term solution worldwide. Alike the other European countries, the Swiss waste disposal concept embarks on the combination of engineered and geological barriers. The disposal cell is a complex geochemical system. The radionuclide mobility and consequently radiological impact depend not only on their chemical speciation but also on the background concentration of other stable nuclides and their behaviour in the natural environment. The safety assessment of the repository is thus a complex multidisciplinary problem requiring knowledge in chemical thermodynamics, structural chemistry, fluid dynamics, geo- and radiochemistry. Broad aspects of radionuclide thermodynamics and geochemistry are investigated in state-of-the-art radiochemical laboratories at the Paul Scherrer Institute. The research conducted over the last 30 years has resulted in a fundamental understanding of the radionuclides release, retention and transport mechanism in the repository system.
ISSN:0009-4293
2673-2424
DOI:10.2533/CHIMIA.2020.1000