Experimental Study on U-Pu Cocrystallization Reprocessing Process
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概要
- 論文の詳細を見る
- Atomic Energy Society of Japanの論文
- 2009-02-01
著者
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Kikuchi Toshiaki
Energy Project And Technol. Center Mitsubishi Materials Corp.
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Homma Shunji
Division Of Materials Science Graduate School Of Science And Engineering Saitama University
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Yano Kimihiko
Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Koyama Tomozo
Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Kikuchi Toshiaki
Energy Project And Technology Center Mitsubishi Materials Corporation
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SHIBATA Atsuhiro
Nuclear Fuel Cycle Engineering Laboratories, Japan Atomic Energy Agency
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OHYAMA Kouichi
Nuclear Fuel Cycle Engineering Laboratories, Japan Atomic Energy Agency
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NOMURA Kazunori
Nuclear Fuel Cycle Engineering Laboratories, Japan Atomic Energy Agency
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NAKAMURA Kazuhito
Energy Project and Technology Center, Mitsubishi Materials Corporation
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Ohyama Kouichi
Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Nomura Kazunori
Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Shibata Atsuhiro
Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Homma Shunji
Div. Of Materials Sci. Graduate School Of Sci. And Engineering Saitama Univ.
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Koyama Tomozo
Nuclear Cycle Engineering Department Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Shibata Atsuhiro
Nuclear Cycle Engineering Department Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
関連論文
- Development of Advanced Reprocessing System Based on Precipitation Method Using Pyrrolidone Derivatives as Precipitants : Precipitation Behavior of U(VI), Pu(IV), and Pu(VI) by Pyrrolidone Derivatives with Low Hydrophobicity
- Solubility of Uranyl Nitrate Precipitates with N-Alkyl-2-pyrrolidone Derivatives (Alkyl = n-Propyl, n-Butyl, iso-Butyl, and Cyclohexyl
- A Study on Precipitation Behavior of Plutonium and Other Transuranium Elements with N-Cyclohexyl-2-pyrrolidone for Development of a Simple Reprocessing Process
- Anodic Dissolution of UO_2 Pellet Containing Simulated Fission Products in Ammonium Carbonate Solution
- Reaction Model for Fluorination of Uranium Dioxide Using Improved Unreacted Shrinking Core Model for Expanding Spherical Particles
- Conceptual Design Study on Advanced Aqueous Reprocessing System for Fast Reactor Fuel Cycle
- ICONE11-36431 Conceptual Design Study on Advanced Aqueous Reprocessing System for Fast Reactor Fuel Cycle
- Experimental Study on U-Pu Cocrystallization Reprocessing Process
- Batch Crystallization of Uranyl Nitrate
- Flowsheet Study of U-Pu Co-Crystallization Reprocessing System
- Numerical Simulation of Neptunium Extraction Behavior in Co-decontamination Stage for Late Split Purex System
- Computations of the Breakup of a Jet into Drops in Non-Newtonian Liquid-Liquid Systems
- Fluorination Reaction of Uranium Dioxide by Fluorine
- Development of COMPAS, Computer Aided Process Flowsheet Design and Analysis System of Nuclear Fuel Reprocessing
- Separation of Actinide Elements by Solvent Extraction Using Centrifugal Contactors in the NEXT Process
- Uranium Crystallization Test with Dissolver Solution of Irradiated Fuel
- Numerical Simulation of the Formation of a Jet and Droplets from a Capillary in a Co-Flowing Ambient Fluid
- Removal of Liquid and Solid Impurities from Uranyl Nitrate Hexahydrate Crystalline Particles in Crystal Purification Process
- Elongational Viscosities of Entangled Linear Polymers
- Application of Data Reconciliation and Gross Error Detection to Nuclear Material Accounting for Spent Fuel Reprocessing
- Swelling Process of Cylindrical Polymer Gel
- Numerical Calculations of Pattern Formation of Compound Drops Detaching from a Compound Jet in a Co-Flowing Immiscible Fluid
- Nitric Acid Concentration Dependence of Dicesium Plutonium(IV) Nitrate Formation during Solution Growth of Uranyl Nitrate Hexahydrate
- Computations of Compound Droplet Formation from a Co-Axial Dual Nozzle by Three-Fluid Front Tracking Method
- A Front-Tracking Method for Three-Phase Computations of Solidification with Volume Change