Wada Yoichi | Energy And Environmental Systems Laboratory Hitachi Ltd.
スポンサーリンク
概要
関連著者
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Wada Y
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Wada Yoichi
Power And Industrial Systems R& D Division Hitachi Ltd.
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Wada Yoichi
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Wada Yoichi
Energy And Environmental Systems Lab. Hitachi Ltd.
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Wada Yoichi
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Tachibana Masahiko
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Iinuma Kouichi
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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Ishigure K
Department Of Quantum Engineering And Systems Science The University Of Tokyo
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Wada Yoichi
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Ishida Kazushige
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Ishida Kazushige
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Ishigure Kenkichi
Quantum Science And Energy Engineering Department Graduate School Of Engineering Tohoku University
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TACHIBANA Masahiko
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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Uchida S
Tohoku Univ. Sendai
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Uchida Shunsuke
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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Uchida Shunsuke
Energy Research Laboratory Hitachi Ltd.
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Uchida S
Japan Atomic Energy Agency
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Fuse Motomasa
Hitachi Works Hitachi-ge Nuclear Energy Ltd.
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Fuse Motomasa
Hitachi Works, Hitachi-GE Nuclear Energy, Ltd.
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Aizawa Motohiro
Hitachi-ge Nuclear Energy Ltd.
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ISHIDA Kazushige
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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AIZAWA Motohiro
Hitachi-GE Nuclear Energy, Ltd.
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Fuse Motomasa
Hitachi-ge Nuclear Energy Ltd.
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Ishida Kazushige
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Satoh Y
Quantum Science And Energy Engineering Department Graduate School Of Engineering Tohoku University
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Kadoi Eiichi
The Japan Atomic Power Co.
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Satoh Yoshiyuki
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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UCHIDA Shunsuke
The Institute of Applied Energy
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Ishigure K
Saitama Inst. Of Technol. Saitama
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MIYAZAWA Takahiro
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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SATOH Yoshiyuki
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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UCHIDA Shunsuke
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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TAKIGUCHI Hideki
The Japan Atomic Power Co.
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SATOH Tomonori
Nuclear Science and Engineering Directorate, Japan Atomic Energy Agency
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Uchida Shunsuke
Power And Industrial Systems R&d Division Hitachi Ltd.
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Uchida Shunsuke
Power & Industrial Systems R&d Division Hitachi Ltd.
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Satoh Tomonori
Nuclear Science And Engineering Directorate Japan Atomic Energy Agency
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Miyazawa Takahiro
Quantum Science And Energy Engineering Department Graduate School Of Engineering Tohoku University
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Fuse Motomasa
Power Systems Nuclear Engineering And Product Division Hitachi-ge Nuclear Energy Ltd.
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UCHIDA Shunsuke
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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SATOH Tomonori
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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HIROSE Tatsuya
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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AKAMINE Kazuhiko
Nuclear Engineering Department, Hitachi, Ltd.
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AIZAWA Motohiro
Power Systems, Hitachi Works, Hitachi, Ltd.
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Murayama Yohei
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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Hirose Tatsuya
Quantum Science And Energy Engineering Department Graduate School Of Engineering Tohoku University
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Akamine Kazuhiko
Nuclear Engineering Department Hitachi Ltd.
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Aizawa Motohiro
Hitachi Engineering Co. Ltd.
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Morishima Yusuke
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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Morishima Yusuke
Quantum Science And Energy Engineering Department Graduate School Of Engineering Tohoku University
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MORISHIMA Yusuke
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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IINUMA Koichi
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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AIZAWA Motohiro
Hitachi Engineering Co.
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ISHIGURE Kenkichi
Department of Quantum Engineering and Systems Science, The University of Tokyo
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HOSOKAWA Hideyuki
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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SUGAMA Junichi
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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YAMASHIRO Naoya
Quantum Science and Energy Engineering Department, Graduate School of Engineering, Tohoku University
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WATANABE Atsushi
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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UETAKE Naohito
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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Sugama Jun-ichi
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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NAKAMURA Masato
Power Systems, Hitachi Works, Hitachi, Ltd.
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NAKAMURA Masato
Nuclear Systems Division, Power and Industrial Systems, Hitachi, Ltd.
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AKAMINE Kazuhiko
Hitachi Works, Hitachi, Ltd.
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Hosokawa Hideyuki
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Uetake N
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Uetake Naohito
Power & Industrial Systems R&d Division Hitachi Ltd.
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Ishigure Kenkichi
Department Of Quantum Engineering And System Science Faculty Of Engineering University Of Tokyo
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Watanabe A
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Watanabe Atsushi
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Nakamura Masato
Power Systems Hitachi Works Hitachi Ltd.
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AKAMINE Kazuhiko
Hitachi Ltd.
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ISHIDA Kazushige
Energy and Environmental Systems Laboratory, Hitachi, Ltd.
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WADA Yoichi
Energy and Environmental Systems Laboratory, Hitachi, Ltd.
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TACHIBANA Masahiko
Energy and Environmental Systems Laboratory, Hitachi, Ltd.
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OHTA Nobuyuki
Hitachi-GE Nuclear Energy, Ltd.
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UCHIDA Shunsuke
Department of Bioengineering, Faculty of Engineering, Kagoshima University
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SHIGENAKA Naoto
Power and Industrial Systems R & D Laboratory, Hitachi. Ltd.
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Uchida Shunsuke
Department Of Bioengineering Faculty Of Engineering Kagoshima University
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SAKAI Masanori
Hitachi Research Laboratory, Hitachi, Ltd.
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Sakai Masanori
Hitachi Research Laboratory Hitachi Ltd.
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Yamashiro Naoya
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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Nakamura Masato
Nuclear Systems Division Power And Industrial Systems Hitachi Ltd.
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Shigenaka Naoto
Power And Industrial Systems R & D Laboratory Hitachi. Ltd.
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Hosokawa Hideyuki
Energy and Environmental Systems Laboratory, Hitachi Ltd.
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TERACHI Takumi
Institute of Nuclear Safety System, Inc.
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TAKIGUCHI Hideki
Japan Atomic Power Co.
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Abe Ayumi
The Japan Atomic Power Co.
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UCHIDA Shunsuke
Nuclear Power Engineering Corporation
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TOMIYASU Hiroshi
Shinshu University
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USUI Naoshi
Nuclear System Division, Hitachi, Ltd.
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SATOH Tomonori
Department of Quantum Science and Energy Engineering, Graduate School of Engineering, Tohoku Univers
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SAMBONGI Mitsuru
Power Engineering R&D Center, Tokyo Electric Power Co.
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SUZUKI Shunichi
Power Engineering R&D Center, Tokyo Electric Power Co.
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KARASAWA Hidetoshi
Power & Industrial Systems R&D Laboratory, Hitachi Ltd.
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ENDOU Masao
Power & Industrial Systems R&D Laboratory, Hitachi Ltd.
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NISHINO Yoshitaka
Power & Industrial Systems R&D Laboratory, Hitachi Ltd.
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TSUKADA Takashi
Japan Atomic Energy Agency
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MURAYAMA Yohei
Department of Quantum Science and Energy Engineering, Graduate School of Engineering, Tohoku Univers
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NAGATA Shinji
Materials Design Division, Institute for Materials Research, Tohoku University
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SATOH Toshio
Division of Materials Control, Institute of Multidisciplinary Research for Advanced Materials, Tohok
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USUI Naoshi
Power Systems, Nuclear Engineering and Product Division, Hitachi-GE Nuclear Energy, Ltd.
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SEKIGUCHI Masahiko
The Japan Atomic Power Co.
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NAKAMURA Masato
Hitachi Works, Hitachi, Ltd.
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WADA Yukio
Nuclear Safety Technology Center
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TOMIYASU Hiroshi
Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology
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Wada Yukio
Nuclear Fuel Technology Development Division Power Reactor And Nuclear Fuel Development Corp.
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Endou Masao
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Usui Naoshi
Power Systems Nuclear Engineering And Product Division Hitachi-ge Nuclear Energy Ltd.
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Terachi Takumi
Institute Of Nuclear Safety System Inc.
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Terachi Takumi
Institute Of Nuclear Safety Systems Inc.
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OHSUMI Katsumi
Hitachi Works, Hitachi, Ltd.
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MORIMOTO Kyouichi
Nuclear Fuel Technology Development Division. Power Reactor and Nuclear Fuel Development Corporation
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GOIBUCHI Takayuki
Nuclear Fuel Technology Development Division. Power Reactor and Nuclear Fuel Development Corporation
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Ohsumi Katsumi
Hitachi Works Hitachi Ltd.
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Ohta Nobuyuki
Hitachi-ge Nuclear Energy Ltd.
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Takiguchi H
Japan Atomic Power Co. Tokyo
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Tomiyasu H
Department Of Chemistry And Material Engineering Shinsyu University
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Tomiyasu Hiroshi
Research Laboratory For Nuclear Reactors Tokyo Institute Of Technology
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Hosokawa Hideyuki
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Sambongi Mitsuru
Power Engineering R&d Center Tokyo Electric Power Co.
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Nishino Yoshitaka
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Karasawa Hidetoshi
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Suzuki Shunichi
Power Engineering R&d Center Tokyo Electric Power Co.
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Nagata Shinji
Materials Design Division Institute For Materials Research Tohoku University
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Tachibana Masahiko
Hitachi Research Laboratory Hitachi Ltd.
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ISHIDA Kazushige
Hitachi Research Laboratory, Hitachi, Ltd.
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WADA Yoichi
Hitachi Research Laboratory, Hitachi, Ltd.
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SHIMIZU Ryosuke
Hitachi-GE Nuclear Energy, Ltd.
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OTA Nobuyuki
Hitachi-GE Nuclear Energy, Ltd.
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HARA Nobuyoshi
Graduate School of Engineering, Tohoku University
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Hara Nobuyoshi
Graduate School Of Engineering Tohoku University
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Shimizu Ryosuke
Hitachi-ge Nuclear Energy Ltd.
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TOMIYASU Hiroshi
Research Laboratory for Nuclear Reactor, Tokyo Institute of Technology
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SATOH Tomonori
Nuclear Science and Energy Directorate, Japan Atomic Energy Agency
著作論文
- Effects of Flow Rate on Dissolution of Monocrystal Alumina and Monocrystal Yttria-Stabilized Zirconia in High-Temperature Pure Water
- Hydrazine and Hydrogen Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors, (I) : Temperature Dependence of Hydrazine Reactions
- Effects of Hydrogen Peroxide on Corrosion of Stainless Steel, (IV) : Determination of Oxide Film Properties with Multilateral Surface Analyses
- Effects of Hydrogen Peroxide on Corrosion of Stainless Steel, (III) : Evaluation of Electric Resistance of Oxide Film by Equivalent Circuit Analysis for Frequency Dependent Complex Impedances
- Effects of Hydrogen Peroxide on Corrosion of Stainless Steel, (II) : Evaluation of Oxide Film Properties by Complex Impedance Measurement
- Effects of Hydrogen Peroxide on Intergranular Stress Corrosion Cracking of Stainless Steel in High Temperature Water, (IV) Effects of Oxide Film on Electrochemical Corrosion Potential
- Effects of Hydrogen Peroxide on Intergranular Stress Corrosion Cracking of Stainless Steel in High Temperature Water, (III)Crack Growth Rates in Corrosive Environment Determined by Hydrogen Peroxide
- Effcts of Hydrogen Peroxide on Intergranular Stress Corrosion Cracking of Stainless Steel in High Temperature Water, ( II ) Optimization of Crack Propagation Rate Measurement System
- Study of Polarization Curve Measurement Method for Type 304 Stainless Steel in BWR High Temperature-High Purity Water
- Hydrogen and Hydrazine Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors, (VI) The Effect of Ammonia on Intergranular Stress Corrosion Cracking
- Hydrazine and Hydrogen Coinjection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors (VII) : Effects of Bulk Water Chemistry on ECP Distribution inside a Crack
- Hydrazine and Hydrogen Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors (IV) : Reaction Mechanism and Plant Feasibility Analysis
- Hydrazine and Hydrogen Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors (V) Effects of Hydrazine and Dissolved Oxygen on Flow Accelerated Corrosion of Carbon Steel
- Hydrazine and Hydrogen Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors, (III) Effects of Adding Hydrazine on Zircaloy-2 Corrosion
- Hydrazine and Hydrogen Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors, (II) : Reactivity of Hydrazine with Oxidant in High Temperature Water under Gamma-irradiation
- Effects of Hydrogen Peroxide on Corrosion of Stainless Steel (VI) : Effects of Hydrogen Peroxide and Oxygen on Anodic Polarization Properties of Stainless Steel in High Temperature Pure Water
- Effects of Hydrogen Peroxide on Corrosion of Stainless Steel, (V) Characterization of Oxide Film with Multilateral Surface Analyses
- Effects of Noble Metal Deposition upon Corrosion Behavior of Structural Materials in Nuclear Power Plants, (I) : Effect of Noble Metal Deposition with an Oxide Film on Type 304 Stainless Steel under Simulated Hydrogen Water Chemistry Condition
- Effects of Hydrogen Peroxide on Intergranular Stress Corrosion Cracking of Stainless Steel in High Temperature Water, (V) : Characterization of Oxide Film on Stainless Steel by Multilateral Surface Analyses
- Mitigation Effect of Alkaline Water Chemistry upon Intergranular Stress Corrosion Cracking of Sensitized 304 Stainless Steel
- Evaluation of Effectiveness of Hydrogen Water Chemistry for Different Types of Boiling Water Reactors
- Empirical Understanding of the Dependency of Hydrogen Water Chemistry Effectiveness on BWR Designs
- Effects of Hydrogen Peroxide on Intergranular Stress Corrosion Cracking of Stainless Steel in High Temperature Water, (I), Effects of Hydrogen Peroxide on Electrochemical Corrosion Potential of Stainless Steel
- Photochemical Oxidation of Neptunium(V) to Neptunium (VI) in Nitric Acid Solution Containing Reductants
- Cathodic polarization curves of the oxygen reduction reaction on various structural materials of boiling water reactors in high temperature-high purity water
- Cathodic polarization curves of the oxygen reduction reaction on various structural materials of boiling water reactors in high temperature-high purity water
- Hydrazine and Hydrogen Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors, (I) : Temperature Dependence of Hydrazine Reactions
- Effects of Hydrogen Peroxide on Corrosion of Stainless Steel, (II) : Evaluation of Oxide Film Properties by Complex Impedance Measurement
- Hydrazine and Hydrogen Coinjection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors (VII) : Effects of Bulk Water Chemistry on ECP Distribution inside a Crack