Furukawa Akinori | Department Of Mechanical Engineering Kyushu University
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概要
関連著者
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Furukawa Akinori
Department Of Mechanical Engineering Kyushu University
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Takamatsu Yasuo
Department Of Mechanical Engineering Kyushu University
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Okuma K
Dept.of Intelligent Machinery And Systems Faculty Of Engineering Kyushu Univ.
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Furukawa Akinori
Department Of Intelligent Machinery And Systems Faculty Of Engineering Kyushu University
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Takenouchi Kazuki
Department Of Industrial Design Kyushu Institute Of Design
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Takamatsu Yasuo
Department Of Mechanical Engineering Ariake National College Of Technology
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Takenouchi Kazuki
Department of Industrial Design, Kyushu Institute of Design
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Okuma Kusuo
Department of Mechanical Engineering, Kyushu University
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OKUMA Kusuo
Department of Mechanical Engineering Science, Kyushu University
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Takamatsu Yasuo
Faculty Of Engineering Kyushu University
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Furukawa Akinori
Faculty Of Engineering Kyushu University
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OKUMA Kusuo
Faculty of Engineering, Kyushu University
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SASAKI Toshihiko
Thermal Power Plant Engineering Department, Hitachi Works, Hitachi, Ltd.
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ZHAO Guo-hua
Department of Locomotive and Rolling Stock, Dalian Railway Institute
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SHIMOGAWA Yasuhiko
Faculty of Engineering, Kyushu University
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TAKENOUCHI Kazuki
Faculty of engineering, Kyushu University
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SHIRASU Shin-ichirou
Thermal Power Department, Kyushu Electric Power Co., Inc.
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SATO Sinzi
Department of Mechanical Engineering, Ysuyama National College of Technology
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Zhao Guo-hua
Department Of Locomotive And Rolling Stock Dalian Railway Institute
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Sato Sinzi
Department Of Mechanical Engineering Tsuyama National College Of Technology
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Sato Sinzi
Department Of Mechanical Engineering Ysuyama National College Of Technology
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Shirasu Shin-ichirou
Thermal Power Department Kyushu Electric Power Co. Inc.
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Sasaki Toshihiko
Thermal Power Plant Engineering Department Hitachi Works Hitachi Ltd.
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Shimogawa Yasuhiko
Faculty Of Engineering Kyushu University
著作論文
- Experimental Considerations in an Approximate Method for Estimating the Blade Performance of Darrieus-Type Cross-Flow Water Turbines
- Studies on Cavitation Occurring on the Runner Blade of a Darrieus-Type Water Turbine
- Experimental Studies on a Preferable Blade Profile for High Efficiency and the Blade Characteristics of Darrieus-Type Cross-Flow Water Turbines
- Study on Hydrodynamic Performance of Darrieus-type Cross-flow Water Turbine
- Effects of Geometrical Attitude of Blade on Hydrodynamic Performance of Darrieus-type Cross-flow Water Turbine
- Experiments on Air-Water Two-Phase Flow Pump Impeller with Rotating-Stationary Circular Cascades and Recirculating Flow Holes