Coupled mixed-potential and thermal-hydraulics model for long-term corrosion of copper canisters in deep geological repository

Coupled mixed-potential and thermal-hydraulics model for long-term corrosion of copper canisters in deep geological repository

Canister performance is a major issue for constructing reliable deep geological repositories for storing spent nuclear fuels, and corrosion resistance is main the factor determining canister durability. We developed a 2-D multiphysics model, which can predict both the corrosion rate and potential, f...

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Veröffentlicht in:Npj Materials degradation 2023-04, Vol.7 (1), p.26-14, Article 26
Hauptverfasser: Chae, Nakkyu, Park, Samuel, Seo, Seungjin, Foster, Richard I., Ju, Heejae, Choi, Sungyeol
Format: Artikel
Sprache:eng
Schlagworte:
639/166/898
639/301/1023/1026
639/705
704/172/169/209
Chemical reactions
Chemistry and Materials Science
Copper
Corrosion and Coatings
Corrosion cell
Corrosion potential
Corrosion rate
Corrosion resistance
Durability
Electrochemistry
Engineering
Experiments
Fluid flow
Geological time
Geology
Hydraulics
Materials Science
Nuclear fuels
Repositories
Resistance factors
Spent nuclear fuels
Structural Materials
Tribology
Two dimensional models
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Zusammenfassung:Canister performance is a major issue for constructing reliable deep geological repositories for storing spent nuclear fuels, and corrosion resistance is main the factor determining canister durability. We developed a 2-D multiphysics model, which can predict both the corrosion rate and potential, for simulating copper canister corrosion in deep geological repositories. We found that canisters corroded through the long-cell action in a deep geological repository, the corrosion was quite limited, and the overall canister durability was around 1.7 million years. Our results demonstrated that copper exhibits sufficient corrosion resistance and that long-cell action-based corrosion cannot severely damage copper canisters.
ISSN:2397-2106
2397-2106
DOI:10.1038/s41529-023-00345-6