Kanagawa Akira | Department Of Nuclear Engineering Faculty Of Engineering Nagoya University
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概要
- KANAGAWA Akiraの詳細を見る
- 同名の論文著者
- Department Of Nuclear Engineering Faculty Of Engineering Nagoya Universityの論文著者
関連著者
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Kanagawa Akira
Department Of Nuclear Engineering Faculty Of Engineering Nagoya University
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Yamamoto Ichiro
Department Of Chemistry Graduate School Of Science The University Of Tokyo
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Matsuo Akira
Department Of Engineering Science Osaka University
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Yamamoto Ichiro
Department Of Materials Physics And Energy Engineering Graduate School Of Engineering Nagoya Univers
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KANAGAWA Akira
Department of Nuclear Engineering, Faculty of Engineering, Nagoya University
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Yamamoto Ichiro
Department Of Nuclear Engineering Faculty Of Engineering Nagoya University
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KANOH Kyoji
Department of Nuclear Engineering, Faculty of Engineering, Nagoya University
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KABA Akira
Department of Nuclear Engineering,Faculty of Engineering, Nagoya University
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Matsuo Akira
Department Of Nuclear Engineering Faculty Of Engineering Nagoya University
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Makino Hitoshi
Department Of Nuclear Engineering Faculty Of Engineering Nagoya University
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Kanagawa A
Department Of Nuclear Engineering Faculty Of Engineering Nagoya University
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MATSUO Akira
Department of Nuclear Engineering, Faculty of Engineering, Nagoya University
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MIZUNO Yasuhiko
Department of Nuclear Engineering, Faculty of Engineering, Nagoya University
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KANAGAWA Akira
Department of Nuclear Engineering,Faculty of Engineering, Nagoya University
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KANAGAWA Akira
Department of Nuclear Engineering, Faculty of Engineering,Nagoya University
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YAMAOTO Ichiro
Department of Nuclear Engineering, Faculty of Engineering, Nagoya University
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YAMAGISHI Kunihiko
Department of Nuclear Engineering, Faculty of Engineering, Nagoya University
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YAMASHITA Tadahiko
Department of Nuclear Engineering, Faculty of Engineering, Nagoya University
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YAMAMOTO Ichiro
Department of Nuclear Engineering,Faculty of Engineering, Nagoya University
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KABA Akira
Department of Nuclear Engineering, Faculty of Engineering,Nagoya University
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BABA Takao
Department of Nuclear Engineering, Faculty of Engineering, Nagoya University
著作論文
- Measurement of Isotopic Abundance Ratio of Argon-36, -38 and -40 by General-Purpose Double-Focused Mass Spectrometer
- Optimum Feed Point for Isotope Separating Thermal Diffusion Column
- Meaning of functions representing separative power.
- Value function and separative power for asymmetric separation process.
- Effect of reflux in uranium enriching cascade.
- Separative power of 2-up 1-down ideal cascades.
- Measurement of Isotopic Abundance Ratio of Argon-36, -38 and -40 by General-Purpose Double-Focused Mass Spectrometer.
- Simple Formulae for Analyzing Matched Abundance Ratio Cascade with Constant Separation
- Numerical solution of two-dimensional axisymmetric free convection within isotope separating thermal diffusion column.
- Variable stage-number model for simulating batch operation of water distillation column for tritium isotope separation.
- Numerical calculation of concentration profiles within thermal diffusion column with continuous feed and draw-offs.
- Separative power of ideal cascade with variable separation factors.
- Preliminary experiments of separation of tritium isotope by distillation of water.
- Resolution of inconsistencies of separative power for asymmetric process. Separative power with respect to desired and undesired materials.:Separative Power with Respect to Desired and Undesired Materials
- Numerical analysis of laminar free convection in square cavity containing heat generating Kr-85 gas.
- Reference mean temperature for evaluation of performance of thermal diffusion column for isotope separation.
- Measurement of separative characteristics of thermal diffusion column for argon isotope separation.
- Effect of changes in feed rate and cut on circulating flow within thermal diffusion column for isotope separation.
- Synthesis of value function for multicomponent isotope separation.
- Multicomponent isotope separating cascade composed of elements with large separation factors.
- Comparison of two types of ideal cascades for asymmetric separation processes.