Experimental Study on the Effects of Fault Movement on the Engineered Barrier System
スポンサーリンク
概要
- 論文の詳細を見る
An experimental approach is introduced for understanding how the engineered barriers of a deep geological repository system are affected by fault movement. The experiments are conducted using laboratory simulation test equipment. So far, the experiments indicate that the metal overpack is rotated within the bentonite buffer due to its plasticity, but not breached. Numerical modeling is also developed to supplement the range of the experiments, which is limited by the capability of the test equipment.
- 一般社団法人 日本機械学会の論文
著者
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Yui Mikazu
Japan Atomic Energy Agency
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SAITO Yuya
Japan Atomic Energy Agency
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NAITO Morimasa
Japan Atomic Energy Agency
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TANAI Kenji
Japan Atomic Energy Agency
関連論文
- Transformation of Selenium Solid Phase in the Presence of Iron under Reducing Conditions
- The Effect of Montmorillonite Partial Density on the Role of Colloid Filtration by a Bentonite Buffer
- Geostatistical and geochemical classification of groundwaters considered in safety assessment of a deep geologic repository for high-level radioactive wastes in Japan
- Applicability of Thermodynamic Database of Radioactive Elements Developed for the Japanese Performance Assessment of HLW Repository
- Performance and Design of Clay Barriers for High-level Radioactive Waste Repository(Waste Management and Clay Barriers and Civil Engineering,Proceedings of the 13^ International Clay Conference)
- Experimental Study on the Effects of Fault Movement on the Engineered Barrier System
- Applicability of Thermodynamic Database of Radioactive Elements Developed for the Japanese Performance Assessment of HLW Repository