KURETA Masatoshi | Japan Atomic Energy Agency
スポンサーリンク
概要
関連著者
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KURETA Masatoshi
Japan Atomic Energy Agency
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Akimoto Hajime
Japan Atomic Energy Agency
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Akimoto H
Japan Atomic Energy Res. Inst. Ibaraki
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Akimoto Hajime
Frontier Research System For Global Change
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Ohnuki Akira
Japan Atomic Energy Agency
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Tamai Hidesada
Japan Atomic Energy Agency
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Liu Wei
Japan Atomic Energy Agency
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Liu W
Japan Atomic Energy Agency
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Liu Wei
サウサンプトン大
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Ohnuki A
Japan Atomic Energy Agency
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Ohnuki Akira
Japan Atomic Energy Research Institute
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Liu W
九大 大学院工学府
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TAMAI Hidesada
Japan Atomic Energy Research Institute
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Yoshida Hiroyuki
Japan Atomic Energy Agency
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SATO Takashi
Japan Meteorological Agency
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Sato Takashi
Japan Atomic Energy Agency
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YOSHIDA Hiroyuki
Japan Tobacco Inc. Applied Plant Research Center
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Yoshida Hiroyuki
Japan Atomic Energy Agency Nuclear Science And Engineering Directorate
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Yoshida Hiroyuki
Japan Atomic Energy Research Institute
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Takase Kazuyuki
Japan Atomic Energy Agency Nuclear Science And Engineering Directorate
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IWAMURA Takamichi
Japan Atomic Energy Research Institute
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NAKATSUKA Toru
Japan Atomic Energy Agency
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TAKASE Kazuyuki
Japan Atomic Energy Research Institute
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Yamamoto Kazuhiko
Japan Atomic Power Company
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Okada Hiroyuki
Tokyo Electric Power Company
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MISHIMA Kaichiro
Kyoto University
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Mishima Kaichiro
Kyoto University Research Reactor Institute
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Nishihara Hideaki
Kyoto University Research Reactor Institute
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Kobayashi Toshiyuki
Kobe Steel Ltd.
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Kureta Masatoshi
Japan Atomic Energy Research Institute
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Iwamura Takamichi
Japan Atomic Energy Agency
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MISAWA Takeharu
Japan Atomic Energy Agency
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LIU Wei
Japan Atomic Energy Agency (JAEA)
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TAMAI Hidesada
Japan Atomic Energy Agency (JAEA)
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OHNUKI Akira
Japan Atomic Energy Agency (JAEA)
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YOSHIDA Hiroyuki
Japan Atomic Energy Agency (JAEA)
著作論文
- Effect of Rod Bowing on Critical Power Based on Tight-Lattice 37-Rod Bundle Experiments
- Gap Width Effect on Critical Power based on Tight-Lattice 37-Rod Bundle Experiments
- Pressure Drop Experiments using Tight-Lattice 37-Rod Bundles
- Critical Power Experiment with a Tight-Lattice 37-Rod Bundle
- Critical Power Characteristics in 37-rod Tight Lattice Bundles under Transient Conditions
- An Improved Critical Power Correlation for Tight-Lattice Rod Bundles
- Critical Power Correlation for Tight-Lattice Rod Bundles
- Critical Power in 7-Rod Tight Lattice Bundle(International Conferences on Power and Energy System)
- ICONE11-36099 CRITICAL POWER CHARACTERISTICS OF TIGHT LATTICE BUNDLES
- Pressure Drop Characteristics in Tight-Lattice Bundles for Reduced-Moderation Water Reactors(International Conferences on Power and Energy System)
- ICONE11-36098 PRESSURE DROP CHARACTERISTICS IN TIGHT-LATTICE ROD BUNDLES FOR REDUCED-MODERATION WATER REACTERS
- ICONE11-36097 DEVELOPMENT OF MECHANISTIC BOILING TRANSITION MODEL IN ROD BUNDLES
- Pressure Drop and Heat Transfer for Flow-Boiling of Water in Small-Diameter Tubes
- Development of Design Technology on Thermal-hydraulic Performance in Tight-lattice Rod Bundles: V-Estimation of Void Fraction
- Development of Design Technology on Thermal-Hydraulic Performance in Tight-Lattice Rod Bundles: I-Master Plan and Executive Summary
- Development of Design Technology on Thermal-Hydraulic Performance in Tight-Lattice Rod Bundles: II - Rod Bowing Effect on Boiling Transition under Transient Conditions