Koshizuka Seiichi | Nuclear Engineering Research Laboratory The University Of Tokyo
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概要
- Koshizuka Seiichiの詳細を見る
- 同名の論文著者
- Nuclear Engineering Research Laboratory The University Of Tokyoの論文著者
関連著者
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Koshizuka Seiichi
Nuclear Engineering Research Laboratory The University Of Tokyo
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Oka Yoshiaki
Nuclear Engineering Research Laboratory Graduate School Of Engineering The University Of Tokyo
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OKA Yoshiaki
Nuclear Engineering Research Laboratory, The University of Tokyo
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Oka Yoshiaki
Department Of Nuclear Engineering And Management University Of Tokyo
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越塚 誠一
東京大学大学院 工学系研究科 システム創成学専攻
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岡 芳明
東京大学
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岡 芳明
東京大学大学院工学系研究科附属原子力工学研究施設
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岡 芳明
東京大学原子力グローバルCOE
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岡 芳明
東大原子力工学研究施設
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Oka Yoshiaki
Nuclear Engineering Research Laboratory University Of Tokyo
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Liu J
Department Of Nuclear Engineering And Management The University Of Tokyo
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LIU Jie
Nuclear Professional School, School of Engineering, University of Tokyo
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ISHIWATARI Yuki
Nuclear Professional School, The University of Tokyo
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Duan Ri-qiang
Nuclear Engineering Research Laboratory The University Of Tokyo
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Ishiwatari Yuki
Nuclear Professional School The University Of Tokyo
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Duan Ri
Nuclear Engineering Research Laboratory The University of Tokyo
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YI Tin
Nuclear Engineering Research Laboratory, Graduate School of Engineering, the University of Tokyo
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Yuki Ishiwatari
Nuclear Professional School The University Of Tokyo
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Yi Tin
Nuclear Engineering Research Laboratory The University Of Tokyo
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DUAN Ri-Qiang
Nuclear Engineering Research Laboratory, The University of Tokyo
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DUAN Ri-qiang
Institute of Nuclear and New Energy Technology, Tsinghua University
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YAMAGUCHI Akira
O-arai Engineering Center, Japan Nuclear Cycle Development Institute
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TAKATA Takashi
O-arai Engineering Center, Japan Nuclear Cycle Development Institute
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Takata Takashi
Osaka Univ.
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Takata Takashi
O-arai Engineering Center Japan Nuclear Cycle Development Institute
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XIE Heng
Nuclear Engineering Research Laboratory, The University of Tokyo
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Oka Y
Univ. Tokyo Ibaraki
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Xie Heng
Nuclear Engineering Research Laboratory The University Of Tokyo
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OKANO Yasushi
Nuclear Engineering Research Laboratory, The University of Tokyo
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Takata Takashi
Department Of Energy And Environment Engineering Osaka University
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Yamaguchi Akira
O-arai Engineering Center Japan Nuclear Cycle Development Institute
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OBATA Hiroyuki
The Japan Atomic Power Company
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岡 芳明
東大
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JIANG Sheng-yao
Institute of Nuclear and New Energy Technology, Tsinghua University
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Yamaji Akifumi
Nuclear Engineering Research Laboratory University Of Tokyo
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IKEDA Hirokazu
Nuclear Engineering Research Laboratory, The University of Tokyo
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PARK Hyun
Severe Accident Research Laboratory, Japan Atomic Energy Research Institute
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SUGIMOTO Jun
Severe Accident Research Laboratory, Japan Atomic Energy Research Institute
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Park Hyun
Severe Accident Research Laboratory Japan Atomic Energy Research Institute
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Jiang Sheng-yao
Institute Of Nuclear And New Energy Technology Tsinghua University
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Oka Yoshiaki
Nuclear Engineering Research Laboratory The University Of Tokyo
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Oka Yoshiaki
Nuclear Professional School The University Of Tokyo
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Sugimoto Jun
Severe Accident Research Laboratory Japan Atomic Energy Research Institute
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Sugimoto Jun
Severe Accident Research Laboratory Department Of Reactor Sefety Research Japan Atomic Energy Resear
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KITOH Kazuaki
Nuclear Engineering Research Laboratory, The University of Tokyo
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Obata H
Teikyo Univ. Chiba Jpn
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Yamaji Akifumi
Nuclear Professional School Graduate School Of Engineering The University Of Tokyo
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岡 芳明
Nuclear Professional School The University Of Tokyo
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NOMURA Katsuya
Nuclear Engineering Research Laboratory, Graduate School of Engineering, The University of Tokyo
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Kitoh Kazuaki
Nuclear Engineering Research Laboratory The University Of Tokyo
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Obata Hiroyuki
The Japan Atomic Power Co.
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Nomura Katsuya
Nuclear Engineering Research Laboratory Graduate School Of Engineering The University Of Tokyo
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Koshizuka Seiichi
Nuclear Engineering Research Laboratory, The University of Tokyo
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JEVREMOVIC Tatjana
Nuclear Engineering Research Laboratory, The University of Tokyo
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JEVREMOVIC Tatjana
Nuclear Engineering Research Laboratory, Faculty of Engineering, The University of Tokyo
著作論文
- Numerical Analyses of Flashing Jet Structure and Droplet Size Characteristics
- Numerical and Theoretical Investigation of Effect of Density Ratio on the Critical Weber Number of Droplet Breakup
- ICONE11-36029 DROPLET BREAKUP UNDER IMPULSIVE ACCELERATION USING MOVING PARTICLE SEMI-IMPLICIT METHOD
- Numerical Simulation of Drop Breakup by MPS Method
- Numerical Analysis of Jet Injection Behavior for Fuel-Coolant Interaction using Particle Method
- Thermal and Stability Considerations of Super LWR during Sliding Pressure Startup
- Evaluation of the Energy Conversion Ratio of Vapor Explosions for the Assessment of Nuclear Reactor Safety
- Three-dimensional numerical simulation of droplet deposition
- The Role of Fragmentation Mechanism in Large-Scale Vapor Explosions(International Conferences on Power and Energy System)
- ICONE11-36047 The Role of Fragmentation Mechanism in Large-scale Vapor Explosions
- Investigation on Energetics of Ex-Vessel Vapor Explosion Based on Spontaneous Nucleation Fragmentation
- Supercritical-pressure, Once-through Cycle Light Water Cooled Reactor Concept
- A Linear Stability Analysis of Supercritical Water Reactors, (II) : Coupled Neutronic Thermal-Hydraulic Stability
- A Linear Stability Analysis of Supercritical Water Reactors, (I) : Thermal-Hydraulic Stability
- Startup Thermal Analysis of a High-Temperature Supercritical-Pressure Light Water Reactor
- Numerical Simulation of Liquid Drop Deposition in Annular-Mist Flow Regime of Boiling Water Reactor
- Core Design of a Direct-Cycle, Supercritical-Pressure, Light Water Reactor with Double Tube Water Rods
- Flow-Induced Accident and Transient Analyses of a Direct-Cycle, Light-Water-Cooled, Fast Breeder Reactor Operating at Supercritical Pressure
- Three-dimensional Core Design of High Temperature Supercritical-Pressure Light Water Reactor with Neutronic and Thermal-Hydraulic Coupling
- Control of a High Temperature Supercritical Pressure Light Water Cooled and Moderated Reactor with Water Rods
- Numerical Analysis of Droplet Breakup Behavior using Particle Method
- Breeding Ratio Analysis of a Fast Reactor Cooled by Supercritical Light Water
- Numerical and Theoretical Investigation of Effect of Density Ratio on the Critical Weber Number of Droplet Breakup
- Control of a High Temperature Supercritical Pressure Light Water Cooled and Moderated Reactor with Water Rods
- Effect of Zirconium-Hydride Layers on Reducing Coolant Void Reactivity of Steam Cooled Fast Breeder Reactors.