We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Oxic corrosion model for KAERI Reference disposal system via O<sub>2</sub> consumption reactions and mixed-potential theory.
- Authors
Chae, Nakkyu; Seo, Seungjin; Foster, Richard I.; Choi, Sungyeol
- Abstract
The durability of copper (Cu) canisters against corrosion is critical for the licensing of deep geological repositories. Assessing oxic corrosion, a primary degradation mechanism, is essential for ensuring the reliability of such repositories. Due to the complex interactions influencing oxic corrosion, a comprehensive model is necessary for evaluating Cu canister corrosion. This study develops a model for the KAERI Reference Disposal System (KRS), incorporating mixed-potential theory with key O2 consumption reactions, including Cu corrosion, Cu(I) oxidation, FeS2 oxidation, aerobic microbial activity, and O2 dissolution and consumption. Simulation of 11 scenarios revealed that the representative KRS case would experience a maximum corrosion depth of 9.3 μm on the Cu canister after 2.3 years due to oxic corrosion, under conditions that are unfavorable for the initiation of pitting corrosion. These results suggest that oxic corrosion is not a threat to the isolation of spent nuclear fuels in KRS.
- Subjects
GEOLOGICAL repositories; COPPER; NUCLEAR fuels; SPENT reactor fuels; PITTING corrosion
- Publication
NPJ Materials Degradation, 2024, Vol 8, Issue 1, p1
- ISSN
2397-2106
- Publication type
Article
- DOI
10.1038/s41529-024-00497-z