Matsuzaki Shinroku | Environmental and Process Technology Center, Nippon Steel Corporation
スポンサーリンク
概要
関連著者
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Matsuzaki Shinroku
Environmental and Process Technology Center, Nippon Steel Corporation
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Mio Hiroshi
Research Center for Advanced Science and Technology, Doshisha University
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Komatsuki Satoshi
Department of Chemical Engineering and Materials Science, Doshisha University
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Akashi Masatoshi
Department of Chemical Engineering and Materials Science, Doshisha University
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Shimosaka Atsuko
Department of Chemical Engineering and Materials Science, Doshisha University
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Shirakawa Yoshiyuki
Department of Chemical Engineering and Materials Science, Doshisha University
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Hidaka Jusuke
Department of Chemical Engineering and Materials Science, Doshisha University
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Kadowaki Masatomo
Environmental and Process Technology Center, Nippon Steel Corporation
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Kunitomo Kazuya
Environmental and Process Technology Center, Nippon Steel Corporation
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Matsuzaki Shinroku
Environment & Process Technology Center Nippon Steel Corporation
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Hidaka Jusuke
Department Of Chemical Engineering And Materials Science Doshisha University
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Hidaka Jusuke
Department Of Chemical Engineering And Material Science Faculty Of Science Engineering Doshisha Univ
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Shirakawa Yoshiyuki
Department Of Chemical Engineering And Materials Science Doshisha University
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Shirakawa Y
Osaka Univ. Osaka
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Shirakawa Yoshiyuki
Department Of Materials Science And Processing Faculty Of Engineering Osaka University
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Hidaka J
Department Of Chemical Engineering And Materials Science Doshisha University
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Mio Hiroshi
Research Center For Advanced Science And Technology Doshisha University
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Matsuzaki Shinroku
Engineering Research Center Nippon Steel Corporation
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KADOWAKI Masatomo
Engineering Research Center, Nippon Steel Corporation
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KUNITOMO Kazuya
Engineering Research Center, Nippon Steel Corporation
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Kunitomo Kazuya
Engineering Research Center Nippon Steel Corporation
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Kunitomo Kazuya
Environment & Process Technology Center
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Kadowaki Masatomo
Engineering Research Center Nippon Steel Corporation
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Akashi Masatoshi
Department Of Chemical Engineering And Materials Science Doshisha University
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Shimosaka A
Department Of Chemical Engineering And Materials Science Doshisha University
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Shimosaka Atsuko
Department Of Chemical Engineering And Materials Science Doshisha University
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Komatsuki Satoshi
Department Of Chemical Engineering And Materials Science Doshisha University
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Yokoyama Hirokazu
Environmental and Process Technology Center, Nippon Steel Corporation
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Nomura Seiji
Environment & Process Technology Center, Nippon Steel Corporation
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NAITO Masaaki
Environment & Process Technology Center, Nippon Steel Corporation
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Naito M
Environment & Process Technology Center Nippon Steel Corporation
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Nomura Seiji
Environment & Process Technol. Center Nippon Steel Corp.
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Nomura S
Environment & Process Technology Center Nippon Steel Corporation
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KITAGUCHI Hisatsugu
Advanced Technology Research Laboratories, Nippon Steel Corporation
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AYUKAWA Hiroyuki
Hokkai Iron & Coke Corp.
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TAHARA Toshihide
Kimitsu Works, Nippon Steel Chemical Co., Ltd.
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KOIZUMI Satoshi
Hokkai Iron & Coke Corp.
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OGATA Yoshikuni
Hokkai Iron & Coke Corp.
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NAKAYAMA Takeshi
Hokkai Iron & Coke Corp.
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ABE Tetsuya
Hokkai Iron & Coke Corp.
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Kitaguchi Hisatsugu
Advanced Technology Research Laboratories Nippon Steel Corporation
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Kitaguchi Hisatsugu
Advanced Research Technology Center Nippon Steel Corp.
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Tahara Toshihide
Kimitsu Works Nippon Steel Chemical Co. Ltd.
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Yokoyama Hirokazu
Environmental And Process Technology Center Nippon Steel Corporation
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Ayukawa Hiroyuki
Hokkai Iron & Coke Corp.
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Ogata Yoshikuni
Hokkai Iron & Coke Corp.
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Naito Masaaki
Nippon Steel Corporation Environment & Process Technology Center
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Koizumi Satoshi
Hokkai Iron & Coke Corp.
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Nakayama Takeshi
Hokkai Iron & Coke Corp.
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Abe Tetsuya
Hokkai Iron & Coke Corp.
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Yokoyama Hirokazu
Environment & Process Technology Center, Nippon Steel Corporation
著作論文
- Analysis of Traveling Behavior of Nut Coke Particles in Bell-type Charging Process of Blast Furnace by Using Discrete Element Method
- Effect of Chute Angle on Charging Behavior of Sintered Ore Particles at Bell-less Type Charging System of Blast Furnace by Discrete Element Method
- Validation of Particle Size Segregation of Sintered Ore during Flowing through Laboratory-scale Chute by Discrete Element Method
- Improvement in Blast Furnace Reaction Efficiency through the Use of Highly Reactive Calcium Rich Coke
- Analysis of Traveling Behavior of Nut Coke Particles in Bell-type Charging Process of Blast Furnace by Using Discrete Element Method
- Effect of Chute Angle on Charging Behavior of Sintered Ore Particles at Bell-less Type Charging System of Blast Furnace by Discrete Element Method
- Validation of Particle Size Segregation of Sintered Ore during Flowing through Laboratory-scale Chute by Discrete Element Method