榎田 洋一 | Department Of Nuclear Engineering Graduate School Of Engineering Nagoya University
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概要
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- 同名の論文著者
- Department Of Nuclear Engineering Graduate School Of Engineering Nagoya Universityの論文著者
関連著者
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榎田 洋一
Department Of Nuclear Engineering Graduate School Of Engineering Nagoya University
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Yamamoto Ichiro
High-tec Research Center Graduate School Of Veterinary Medicine And Life Science Nippon Veterinary A
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Yamamoto Ichiro
Department Of Chemistry Graduate School Of Science The University Of Tokyo
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Enokida Youichi
Ecotopia Science Institute Nagoya University
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Yamamoto Ichiro
Department Of Materials Physics And Energy Engineering Graduate School Of Engineering Nagoya Univers
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YAMAMOTO ICHIRO
Department of Pathology, Kitasato University School of Hygienic Sciences
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石田 洋一
東京工業大学 応用セラミックス研究所
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石田 洋一
生研
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鯉沼 秀臣
東京工大 応用セラミックス研
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山本 一良
名古屋大学工学研究科マテリアル理工学専攻
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Enokida Youichi
Department Of Nuclear Engineering Nagoya University
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Yamamoto Ichiro
Department Of Materials Physics And Energy Engineering Graduate School Of Engineering Nagoya Univers
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ENOKIDA Youichi
Departmento of Nuclear Engineering, Nagoya University
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Sawada Kayo
Ecotopia Science Institute Nagoya University
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ENOKIDA Youichi
EcoTopia Science Institute, Nagoya University
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鈴木 篤之
東京大学工学部
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杉山 貴彦
名古屋大学大学院工学研究科
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杉山 貴彦
National Institute For Fusion Science
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YAMAKAWA Hiroshi
Department of Electrical and Computer Engineering, Kanazawa University
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Yamakawa Hiroshi
Department Of Nuclear Engineering Graduate School Of Engineering Nagoya University
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ENOKIDA Youichi
Nagoya University
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YAMAMOTO Ichiro
Nagoya University
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SUGIYAMA Takahiko
National Institute for Fusion Science
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Yamakawa H
Tokyo Univ. Fisheries Tokyo Jpn
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Yamakawa Hiroshi
Department Of Aquatic Biosciences Tokyo University Of Fisheries
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Sugiyama Takahiko
National Institute for Fusion Science, 322-6 Oroshi, Toki 509-5292, Japan
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Kobayashi Noboru
Department of Cardiology, Memorial Heart Center, Iwate Medical University School of Medicine
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Noboru Kobayashi
Department Of Nuclear Engineering Graduate School Of Engineering Nagoya University
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SAWADA Kayo
Nagoya University
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SUGIYAMA Takahiko
Department of Nuclear Engineering, Graduate school of Engineeing, Nagoya University
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Kobayashi Noboru
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
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SUGIYAMA Takahiko
Department of Chemical Engineering & Materials Science, Doshisha University
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Tomioka Osamu
Department Of Nuclear Engineering Nagoya University
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URUGA Kazuyoshi
Nagoya University
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Shimada Takashi
Ecotopia Science Institute Nagoya University
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荒木 秀樹
阪大工
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Araki H
Dakin Ind. Ltd. Osaka Jpn
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Araki Hideki
Department Of Materials Science And Engineering Faculty Of Engineering Osaka University
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OHNUKI Toshihiko
Advanced Science Research Center, Japan Atomic Energy Agency
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SUZUKI Yoshinori
Department of Public Health and Forensic Medicine, Tohoku University Graduate School of Medicine and
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SAWADA Kayo
Department of Energy Engineering and Science, Nagoya University
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OZAKI Takuo
Advanced Science Research Center, Japan Atomic Energy Research Institute
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Ozaki Takuo
Advanced Science Research Center Japan Atomic Energy Agency
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Francis Arokiasamy
Environmental Sciences Department Brookhaven National Laboratory
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Suzuki Yoshinori
Department Of Public Health And Forensic Medicine Tohoku University Graduate School Of Medicine And
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Araki H
Osaka Univ. Suita Jpn
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Araki H
Departmento Of Nuclear Engineering Nagoya University
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YOSHIDA Zenko
Advanced Science Research Center, Japan Atomic Energy Research Institute
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Sawada Kayo
Department Of Energy Engineering And Science Nagoya University
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Yoshida Z
Advanced Science Research Center Japan Atomic Energy Research Institute
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Yoshida Zenko
Advanced Science Research Center Japan Atomic Energy Research Institute
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Koyama Tomozo
Japan Nuclear Cycle Development Institute Tokai Works
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Koyama Tomozo
Japan Atomic Energy Agency
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SHIMADA Takashi
Nuclear Energy System Engineering Center, Mitsubishi Heavy Industries, Ltd.
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MORI Yukihide
Nuclear Energy System Engineering Center, Mitsubishi Heavy Industries, Ltd.
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Mori Yukihide
Nuclear Energy System Engineering Center Mitsubishi Heavy Industries Ltd.
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SHIMIZU Ryosuke
Department of Materials, Physics and Energy Engineering, Nagoya University
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MEGURO Yoshihiro
Advanced Science Research, Japan Atomic Energy Research Institute
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Shimizu Ryosuke
Department Of Applied Physics Faculty Of Engineering The University Of Tokyo
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Shimizu Ryosuke
Department Of Materials Physics And Energy Engineering Nagoya University
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Mori Syunsuke
Department Of Nuclear Engineering Graduate School Of Engineering Nagoya University
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Nankawa Takuya
Advanced Science Research Center Japan Atomic Energy Agency
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Ohnuki Toshihiko
Advanced Science Research Center Japan Atomic Energy Agency
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Suzuki Yoshinori
Advanced Science Research Center Japan Atomic Energy Agency
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Matsumoto K
Toyota Auto Body Co. Ltd.
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MATSUMOTO Kouji
Toyota Auto Body Co., Ltd.
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Meguro Y
Advanced Science Research Center Japan Atomic Energy Research Institute
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Meguro Yoshihiro
Advanced Science Research Center Japan Atomic Energy Research Institute
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Ohnuki Toshihiko
Advanced Sci. Res. Center Japan Atomic Energy Agency
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Suzuki Yoshinori
Graduate School of Bionics, Tokyo University of Technology
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Suzuki Yoshinori
Graduate School Of Bionics Tokyo University Of Technology
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Suzuki Yoshinori
Department Of Electrical And Electronic Engineering Kanagawa Institute Of Technology
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Shimizu Ryosuke
Department of Angiology and Cardiology, Kitasato University Graduate School of Medical Sciences
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Kato Yoshihisa
Department Of Internal Medicine School Of Medicine Fujita Health Univ.
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Uda Tatsuhiko
Safety And Environmental Research Center National Institute For Fusion Science
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Uda Tatsuhiko
National Institute For Fusion Science
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YOSHIDA Takahiro
Advanced Science Research Center, Japan Atomic Energy Research Institute
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Yoshida Takahiro
Advanced Science Research Center Japan Atomic Energy Agency
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Arita Yuji
Nagoya University
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Kamiya Masayoshi
Japan Nuclear Cycle Development Institute Tokai Works
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OGUMO Sinya
Nuclear Energy Systems Engineering Center, Mitsubishi Heavy Industries, Ltd.
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TOMIOKA Osamu
Nagoya University
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Ogumo Sinya
Nuclear Energy Systems Engineering Center Mitsubishi Heavy Industries Ltd.
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AOKI Kazuo
Advanced Reactor Technology Co., Ltd.
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DOKA Kunio
Nagoya University
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ASAKURA Yamato
National Institute for Fusion Science
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ABE Yousuke
Nagoya University
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SHIOZAKI Taro
Nagoya University
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HIRANO Ryota
Department of Nuclear Engineering, Graduate School of Engineering, Nagoya University
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ENOKIDA Youichi
Research Center for Nuclear Materials Recyle, Nagoya University
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ISO Shuichi
Advanced Science Research Center, Japan Atomic Energy Research Institute
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MORI Syunsuke
The Japan Atomic Power Co., Ltd.
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MORI Syunsuke
Department of Nuclear Engineering, Graduate School of Engineering, Nagoya University
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TAKENAGA Yuusuke
Department of Nuclear Engineering, Graduate School of Engineering, Nagoya University
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Iso S
Advanced Science Research Center Japan Atomic Energy Research Institute
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Hirano Ryota
Department Of Nuclear Engineering Graduate School Of Engineering Nagoya University
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TSUSHIMA Satoru
Department of Materials, Physics, and Energy Engineering, Graduate School of Engineering, Nagoya Uni
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Tsushima Satoru
Department Of Materials Physics And Energy Engineering Graduate School Of Engineering Nagoya Univers
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Kamiya Masayoshi
Japan Atomic Energy Agency
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Aoki Kazuo
Advanced Reactor Technology Co. Ltd.
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Kato Yoshihisa
Department Of Nuclear Engineering Graduate School Of Engineering Nagoya University
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Takenaga Yuusuke
Department Of Nuclear Engineering Graduate School Of Engineering Nagoya University
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FRANCIS Arokiasamy
Environmental Sciences Department, Brookhaven National Laboratory
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Mori Syunsuke
Department of Materials Science and Engineering, Nagoya Institute of Technology, Nagoya 466-8555, Japan
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Ozaki Takuo
Advanced Science Research Center, Japan Atomic Energy Agency
著作論文
- アクチノイドおよび白金族の熱レンズ法による濃度分析の検討
- Recovery of Metals from Simulated High-Level Radioactive Waste Glass through Phase Separation
- Numerical Analyses of Isotopic Concentration Profiles in Displacement Chromatography for Lithium Isotope Separetion
- Effect of Flow Rate on Height Equivalent to a Theoretical Plate for Lithium Isotope Separation with Displacement Chromatography
- Selective Extraction of Uranium from a Mixture of Metal or Metal Oxides by a Tri-n-butylphosphate Complex with HNO_3 and H_2O in Supercritical CO_2
- Densities of Supercritical Fluids Containing CO_2 and Tri-n-butylphosphate
- Stoichiometric Relation for Extraction of Uranium from UO_2 Powder using TBP Complex with HNO_3 and H_2O in Supercritical CO_2
- Distribution Coefficients of U(VI), Nitric Acid and FP Elements in Extractions from Concentrated Aqueous Solutions of Nitrates by 30% Tri-n-butylphosphate Solution
- Liquid Metal Extraction for Removal of Molybdenum from Molten Glass Containing Simulated Nuclear Waste Elements
- Removal of Platinum Group Metals Contained in Molten Glass Using Copper
- Extractability of Metals in Municipal Solid Wastes Fly Ash Using Supercritical CO_2 Containing Cyanex 302
- Decontamination of Radioactive Contaminants from Iron Pipes using Reactive Microemulsion of Organic Acid in Supercritical Carbon Dioxide
- Generation of Nitrous Acid by Ultrasound Irradiation in the Organic Solution Consisting of Tri-n-butylphosphate, Nitric Acid and Water
- Preliminary Experiments on Hydrogen Isotope Separation by Water-Hydrogen Chemical Exchange under Reduced Pressure
- Isotope Separation of H_2-HD Gas Mixture with "Cryogenic-Wall" Thermal Diffusion Column with a Heated Tube
- Dissolution Behavior of Uranium Oxides with Supercritical CO_2 Using HNO_3-TBP Complex as a Reactant
- Isotopic Approximations to Thermal Diffusion Factor and Ordinary Diffusion Coefficient in a Mixture of More than 4 Components
- New Method for the Removal of Uranium from Solid Wastes with Supercritical CO_2 Medium Containing HNO_3-TBP Complex
- Estimation of Hot Wire Temperature of Thermal Diffusion Column by the Pressure Change after Turning on Electricity
- Effect of Cold Wall Temperature of Thermal Diffusion Column on ^N^N-^N_2 Isotope Separation
- Thermal Diffusion Factor for Diatomic Gas Mixture in Multicomponent System
- Separative Analyses of Packed Water Distillation Column with Channeling Stage Model
- Inverse Power Series Fittings of Temperature Dependence of Thermal Diffusion Factors between Two Components of Hydrogen Isotope Molecules
- 光酸化還元反応の核燃料再処理への応用 (化学工学と光利用技術)
- 交流電場を利用する液液抽出装置の特性解析
- Electrochemical Studies on Uranium in Presence of Organic Acids
- Sorption of Eu(III) on Pseudomonas fluorescens in the Presence of Citric Acid
- 放射性溶液のレ-ザ-化学 (レ-ザ-の化学への応用)
- 回転2重円環内流れの軸方向乱流拡散〔英文〕
- 塔型抽出装置の流動不安定性解析
- DB法レ-ザ-同位体分離に関する研究〔英文〕
- 再処理プロセスにおけるレ-ザ-を利用したネプツニウムの分離
- レ-ザ-光分離プロセスの解析 (大学における原子力フロンティア研究)
- Solvent Extraction of Lanthanides from Their Oxides with TBP in Supercritical Carbon Dioxide
- Effect of Operational Pressure on Periodic Oscillation of Secondary Circulation near the Bottom of the Thermal Diffusion Column
- Numerical Analysis of Dynamic Behavior at Start-up of the Thermal Diffusion Column for Hydrogen Isotope Separation
- Simultaneous Solution of Concentration Profiles in Vapor-liquid Phases of Wetted-wall Distillation Column for H_20-HTO Isotope Separation
- A Solution of a Material Balance Equation of Channeling Stage Model for a Simple Case of a Water Distillation Column
- Effects of Partition Wall within Packings on Separative Performances of Water Distillation for H_2O-HTO Isotope Separation
- Effect of Inner Radius of Wetted-wall Column on Separative Performance of H_2O-HTO Water Distillation