Effective Utilization of Weapon-Grade Plutonium to Upgrade Repeatedly-Reprocessed Mixed-Oxide Fuel for Use in Pressurized Water Reactors
スポンサーリンク
概要
- 論文の詳細を見る
A “Multiple Recycling” mode of fuel management is proposed for effectively utilizing weapon-grade plutonium from descarded military material to compensate plutonium degradation in repeatedly-reprocessed mixed-oxide (MOX) fuel. Comparative calculations on core performance are undertaken for comparison between the proposed fuel management mode of Multiple Recycling - using recovered depleted plutonium upgraded by admixture with weapon-grad plutonium while retaining unincreased the total plutonium content - and a reference mode of using repeatedly reprocessed spent MOX fuel with plutonium upgraded through increase of the plutonium content. Multiple Recycling proves all calculated safety parameters to be retained unimpaired through multiple cycles of MOX fuel reprocessing, whereas in the reference mode of refueling with spent MOX fuel reprocessed without upgrading with weapon-grade plutonium, many of the calculated safety parameters come to exceed stipulated limits with repetition of fuel cycles. Moreover, Multiple Recycling mode can be implemented with application solely of techniques already practiced in the fabrication of MOX fuel.
- 社団法人 日本原子力学会の論文
- 1999-09-25
著者
-
Kanda Keiji
Graduate School Of Energy Science Kyoto University
-
Hanayama Yasushi
Graduate School Of Energy Science Kyoto University
-
YAMAMOTO Akio
Graduate School of Energy Science, Kyoto University
-
Yamamoto Akio
Graduate School Of Energy Science Kyoto University
関連論文
- Comparison between Equilibrium Cycle and Successive Multicycle Optimization Methods for In-Core Fuel Management of Pressurized Water Reactors
- Effective Utilization of Weapon-Grade Plutonium to Upgrade Repeatedly-Reprocessed Mixed-Oxide Fuel for Use in Pressurized Water Reactors
- Multiple Recycling Characteristics and Cost of MOX Fuel Using Weapons-Grade Plutonium in Commercial PWR
- Electron Correlations in Superconductor Rh17S15 Studied by 103Rh NMR and Specific Heat Measurements
- Highly Regioselective Palladium-Catalyzed Annulation Reactions of Heteroatom-Substituted Allenes for Synthesis of Condensed Heterocycles
- Proposal of High Performance 1.55μm Quantum Dot Heterostructure Laser Using InN
- Barrier Thickness Dependence of Photovoltaic Characteristics of InGaN/GaN Multiple Quantum Well Solar Cells
- Efficient fission neutron spectrum matrix representation by singular value decomposition technique
- A Complementary Metal–Oxide–Semiconductor Image Sensor for On-Chip in Vitro and in Vivo Imaging of the Mouse Hippocampus
- Fabricating Five Atomic Force Microscopes with an Extremely Low Budget —A Student Project—