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社団法人 日本原子力学会 | 論文
- Dissolution of Haematite in Citric Acid-EDTA-Ascorbic Acid Mixtures
- Accelerator-driven Systems ; Their Application to the Incineration of Long-lived Radioactive Waste
- Responses of LiF TLD in Different Media and Cavity Ionization Theory for Low Energy Photons below 200 keV
- Development of a Method for Evaluation of Pin-wise Power Distribution in Fuel Assemblies of Fast Reactors
- Density Equation of Aqueous Solution Containing Plutonium (IV), Uranium (VI) and Nitric Acid
- Enrichment of Fission Products in Ionic Salt Bath by Countercurrent Electromigration
- Development of Oxide Dispersion Strengthened Steels for FBR Core Application, (II) Morphology Improvement by Martensite Transformation
- Processing High-Level Liquid Waste by Super-High-Temperature Method, (IV) Reducing Reactions and Alloy Formation by Platinum Group Elements, Molydenum and Corrosion Products Taking Place in Simulated HLLW
- Application of Simplified Condensation Model to PWR LBLOCA Transient Analysis with TRAC-PF1 Code
- Evaluation on Driving Force of Natural Circulation in Downcomer for Passive Residual Heat Removal System in JAERI Passive Safety Reactor JPSR
- Solvent Extraction of Lanthanides from Their Oxides with TBP in Supercritical Carbon Dioxide
- Thermal Conductivity Measurements on UO_ from 300 to 1, 400 K
- High Energy Resolution Measurement Method of Photonuclear Reaction Cross Section
- Numerical Study of Two-Dimensional Structure in Critical Steam-Water Two-Phase Flow
- Space-Dependent Effect Observed in Subcriticality Measurements for Loosely Coupled-Core System
- Possibility of a Pressurized Water Reactor Concept with Highly Inherent Heat Removal Following Capability
- Transient Analysis for Design of Primary Coolant Pump Adopted to JAERI Passive Safety Reactor JPSR
- Application of PSA Methodology to Design Improvement of JAERI Passive Safety Reactor(JPSR)
- Experimental Study on Fabrication Technique of a Ni/Ti Supermirror using the Electron Beam Evaporation System
- Development of a Dynamic Food Chain Model DYNACON and Its Application to Korean Agricultural Conditions