Yasuda Keiji | Department Of Chemical Engineering Graduate School Of Engineering Nagoya University
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概要
関連著者
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Yasuda Keiji
Department Of Chemical Engineering Graduate School Of Engineering Nagoya University
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NAKAMURA Masaaki
Department of Biomaterials, Osaka Dental University
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Nakamura Masaaki
Department Of Applied Physics Faculty Of Science Tokyo University Of Science
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中村 正秋
Department Of Chemical Engineering Nagoya University
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Bando Yoshiyuki
Department Of Applied Chemistry Gifu University
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Bando Y
Department Of Chemical Engineering Nagoya University
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Bando Y
Nagoya Univ. Nagoya Jpn
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Yasuda K
Department Of Chemical Engineering Nagoya University
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YASUDA Keiji
Department of Chemical Engineering, Nagoya University
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Nakamura Masaaki
Department Of Biomaterials Osaka Dental University
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YASUDA Keiji
Waste Treatment Facility, Nagoya University
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Yasuda Keiji
Waste Treatment Facility Nagoya University
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KAWASE Yasuhito
Nippon Refine Co., Ltd.
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Kawase Yoshinori
Nippon Refine Co. Ltd.
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Kawase Yasuhito
Nippon Refine Co. Ltd.
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Koda Shinobu
Department Of Chemical Engineering Nagoya University
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Nakamura Masaaki
Department Of Chemical Engineering Nagoya University
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Asakura Yoshiyuki
Honda Electronics Co. Ltd.
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Tatemoto Yuji
Department Of Materials Science And Chemical Engineering Shizuoka University
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LI Meisen
Department of Chemical Engineering, Nagoya University
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Li Meisen
Department Of Chemical Engineering Nagoya University
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Xu Zheng
Department Of Biochemistry And National Laboratory Of Pharmaceutical Biotechnology Nanjing Universit
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KODA Shinobu
Department of Molecular Design and Engineering, Graduate School of Engineering, Nagoya University
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MASUYA Takayoshi
Department of Chemical Engineering, Nagoya University
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YAMAGUCHI Soyoko
Department of Chemical Engineering, Nagoya University
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ODA Akiyoshi
Nippon Refine Co., Ltd.
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DOI Kazuyoshi
Department of Chemical Engineering, Nagoya University
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ASAKURA YOSHIYUKI
Honda Electronics Co., Ltd.
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Kato Daiki
Department Of Chemical Engineering Graduate School Of Engineering Nagoya University
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Oda Akiyoshi
Nippon Refine Co. Ltd.
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Doi Kazuyoshi
Department Of Chemical Engineering Nagoya University
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Doi Kazuyoshi
Department Of Biomedical Engineering Lerner Research Institute
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SAKURAI Yukio
Department of Chemical Engineering, Nagoya University
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Masuya Takayoshi
Department Of Chemical Engineering Nagoya University
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Yamaguchi Soyoko
Department Of Chemical Engineering Nagoya University
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Sakurai Yukio
Department Of Chemical Engineering Nagoya University
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Nakamura M
Chiba Univ. Chiba Jpn
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Matsuura Kazumasa
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan
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Jin Jiye
Department Of Chemistry Faculty Of Engineering Gifu University
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SANO Akira
Department of Analytical Chemistry, Faculty of Pharmaceutical Sciences, Science University of Tokyo
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香田 忍
名古屋大工
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MATSUOKA Tatsuro
Department of Molecular Design and Engineering, Graduate School of Engineering, Nagoya University
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Nomura H
Toshiba Corp. Yokohama Jpn
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Sakka Makiko
Applied Microbiology Laboratory, Graduate School of Bioresources, Mie University
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SAKKA Kazuo
Applied Microbiology Laboratory, Graduate School of Bioresources, Mie University
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Matsuoka Tatsuro
Department Of Molecular Design And Engineering Graduate School Of Engineering Nagoya University
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Tanaka Yoshikazu
Department Of Chemical Engineering Nagoya University
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Yasuda K
Hitachi Ltd. Saitama Jpn
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NOMURA Hiroyasu
Department of Molecular Design and Engineering, Graduate School of Engineering, Nagoya University
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Nomura H
Laboratory Of Chemistry Department Of Natural Science School Of Science And Technology Tokyo Denki U
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Nomura Hiroyasu
Department Of Chemical Engineering Faculty Of Engineering Nagoya University
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TOYODA Yusuke
Department of Chemical Engineering, Nagoya University
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TSUGE Takanori
Department of Chemical Engineering, Nagoya University
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FUKUTOMI Satoshi
Department of Molecular Design and Engineering, Graduate School of Engineering, Nagoya University
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Tsuge. Takanori
Department Of Chemical Engineering Nagoya University
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SUGITA Hajime
Department of Chemical Engineering, Nagoya University
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AZEGAMI Muneo
Prand Research Institute
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Sano Akira
Department Of Chemical Engineering Nagoya University
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Sugita H
Univ. Tokyo Tokyo Jpn
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Koda Shinobu
Department Of Molecular Design And Engineering Graduation School Of Engineering Nagoya University
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Fukutomi Satoshi
Department Of Molecular Design And Engineering Graduation School Of Engineering Nagoya University
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Sano Akira
Department Of Analytical Chemistry Faculty Of Pharmaceutical Sciences Science University Of Tokyo
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Xu Zheng
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan
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Yasuda Keiji
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University
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NAKAYAMA Shingo
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University
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香田 忍
名古屋大学大学院工学研究科
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Zhou Jingsong
Department of Life and Materials Engineering, Nagoya Institute of Technology
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香田 忍
名大院工
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SUZUKI Tomoya
Department of Chemistry, University of Tsukuba
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KATO YOSHIYUKI
Department of Medicine, Institute of Clinical Endocrinology, Tokyo Women's Medical University
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TAKEUCHI AKIRA
Department of Medicine, Fujita Gakuen University School of Medicine
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Hattori Kaoru
Department Of Cardiology Miki City Hospital
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Zhou Jingsong
Dep. Of Life And Materials Engineering Nagoya Inst. Of Technol.
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Takeuchi Akira
Department Of Biochemical Science And Technology Faculty Of Agriculture Kagoshima University
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Suzuki Kenji
Department Of Applied Physics Osaka University
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FUJIMORI Eiji
Waste Treatment Facility, Nagoya University
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Fujimori Eiji
Waste Treatment Facility Nagoya University
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Fujimori Eiji
Waste Treatment Facil. Nagoya Univ.
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TANAKA Yoshikazu
Department of Bioresource Development, Hiroshima Prefectural University
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KOJIMA Yoshihiro
EcoTopia Science Institute, Nagoya University
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Matsuoka Toshimasa
Department Of Electronic Engineering Osaka University
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YOSHIMATSU Takashi
Department of Chest Surgery, Kitakyushu Municipal Medical Center
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KITANO Hideki
Department of Aerospace Engineering, National Defense Academy
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LUO Wenji
Department of Chemical Engineering, Nagoya University
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WANG Yufei
Department of Chemical Engineering, Nagoya University
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FUNATO Yasuhiro
Nagoya Oshima Machinery Co., Ltd.
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OSHIMA Masataka
Nagoya Oshima Machinery Co., Ltd.
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SENGA Akira
Chuo Kakohki Co., Ltd.
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KIYOKAWA Eimei
Chuo Kakohki Co., Ltd.
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KATO Daiki
Department of Radiology, University of Tokyo School of Medicine
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Zhou Jingsong
Department Of Chemical Engineering Nagoya University
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Yoshimatsu Takashi
Department Of Chest Surgery Kitakyushu Municipal Medical Center
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Rong L
Nagoya Univ. Nagoya Jpn
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Kato Yoshiyuki
Department Of Chemical Engineering Nagoya University
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Luo Wenji
Department Of Chemical Engineering Nagoya University
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Wang Yufei
Department Of Chemical Engineering Nagoya University
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Suzuki T
Department Of Chemical Engineering Nagoya University
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Kitano Hideki
Department Of Aerospace Engineering National Defense Academy
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Kitano Hideki
Department Of Molecular Design And Engineering Graduate School Of Engineering Nagoya University
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Matsunaga Isao
Geo-energy Division Geotechnology Department National Institute For Resources And Environment
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Kiyokawa Eimei
Chuo Kakohki Co. Ltd.
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Kojima Y
Ecotopia Science Institute Nagoya University
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Kojima Yoshihiro
Ecotopia Science Institute Nagoya University
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Kojima Yoshihiro
Research Centre For Advanced Waste And Emission Management Nagoya University
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RONG Lei
Department of Chemical Engineering, Nagoya University
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Oshima Masataka
Nagoya Oshima Machinery Co. Ltd.
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HAMANO Shin-ichi
Department of Chemical Engineering, Nagoya University
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SASAGAWA Tetsuhiro
Department of Chemical Engineering, Nagoya University
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OSUKA Yasutaka
Department of Chemical Engineering, Nagoya University
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CHAYA MAKOTO
Kyowa Yuka Company Limited
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OSADA KAZUYASU
Kyowa Yuka Company Limited
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MATSUI MIKIO
Kyowa Yuka Company Limited
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TANIGAWARA Ryo
Department of Chemical Engineering, Nagoya University
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TSUGE. Takanori
Department of Chemical Engineering, Nagoya University
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IIDA Noritaka
Department of Chemical Engineering, Nagoya University
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FUJIMORI Kazuhiro
Department of Chemical Engineering, Nagoya University
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TERAZAWA Hiromu
Department of Chemical Engineering, Nagoya University
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ISHIO Kenichi
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University
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Osuka Yasutaka
Department Of Chemical Engineering Nagoya University
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KATO KOICHI
Central Research Division, Takeda Chemical Industries, Ltd.,
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Suzuki Tomoya
Department Of Chemical Engineering Nagoya University
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Ishio Kenichi
Department Of Chemical Engineering Graduate School Of Engineering Nagoya University
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Iida Noritaka
Department Of Chemical Engineering Nagoya University
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Tanigawara Ryo
Department Of Chemical Engineering Nagoya University
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SUGITA Hajime
Geo-Energy Division, Geotechnology Department, National Institute for Resources and Environment
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UEDA Akira
Central Institute of Mitsubishi Materials Corporation
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Sasagawa Tetsuhiro
Department Of Chemical Engineering Nagoya University
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SUZUKI Rui
Department of Chemical Engineering, Nagoya University
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KATO Tatsuyoshi
Department of Chemical Engineering, Nagoya University
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TACHI Misako
Department of Chemical Engineering, Nagoya University
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Rong Lei
Department Of Chemical Engineering Nagoya University
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Funato Yasuhiro
Nagoya Oshima Machinery Co. Ltd.
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Takeuchi Akira
Department Of Chemical Engineering Nagoya University
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Terazawa Hiromu
Department Of Chemical Engineering Nagoya University
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Hamano Shin-ichi
Department Of Chemical Engineering Nagoya University
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Fujimori Kazuhiro
Department Of Chemical Engineering Nagoya University
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Tanaka Yoshikazu
Department Of Biology Faculty Of Science Osaka University
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Suzuki Rui
Department Of Chemical Engineering Nagoya University
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Kato Tatsuyoshi
Department Of Chemical Engineering Nagoya University
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Kato K
Central Institute Of Mitsubishi Materials Corporation
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Kato Koichi
Central Research Division Takeda Chemical Industries Ltd.
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Tachi Misako
Department Of Chemical Engineering Nagoya University
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Suzuki Kenji
Department Of Anesthesia Kitakami Saiseikai Hospital
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Suzuki Kenji
Department Of Chemical Engineering Nagoya University
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Bando Yoshiyuki
Department of Chemical Engineering, Nagoya University
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Yasuda Keiji
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan
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JIN Jiye
Department of Chemistry, Faculty of Science, Shinshu University
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Asakura Yoshiyuki
Honda Electronics Co., Ltd., Toyohashi, Aichi 441-3193, Japan
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Mochida Kyosuke
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan
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Naito Tetsuya
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan
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Kato Koichi
Central Institute of Mitsubishi Materials Corporation
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Kato Daiki
Department of Chemical Engineering, Faculty of Engineering, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8603, Japan
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Sakka Makiko
Applied Microbiology Laboratory, Graduate School of Bioresources, Mie University, 1577 Kurima-Machiyacho, Tsu 514-8507, Japan
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Kishima Yuki
Department of Chemical Engineering, Graduate School of Engineering, Nagoya University
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Horizoe Hirotoshi
Department of Chemical Engineering, Nagoya University
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Ono Junki
Department of Chemistry, Faculty of Science, Shinshu University
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Koda Shinobu
Department of Molecular Design and Engineering, Nagoya University
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Okura Risa
Department of Chemical Engineering, Nagoya University
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Hattori Kaoru
Department of Chemistry, Faculty of Science, Shinshu University
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Kato Daiki
Department of Chemical Engineering, Nagoya University
著作論文
- Flow Characteristics in Cocurrent Upflow Bubble Column Dispersed with Micro-Bubbles
- Effect of Flow Mode of Carrier Gas on Performance of Ultrasonic Atomization
- Hydrogen Fermentation by Using Heat-Shocked Granular Sludge
- Effects of Operation Conditions on the Performance of a Concentrator Using Ultrasonic Atomization
- Effect of Ultrasonic Irradiation on Solvent Cleaning for Parts Impregnated with Chlorinated Organic Compounds
- Development of Small Ultrasonic Reactor for On-Site Treatment of Wastewater Including Chlorinated Hydrocarbon
- Enhancement in Biodegradability of Excess Sludge by Using a Centrifugal Vibration Mill
- The Effects of the Solute Properties in Aqueous Solutions on the Separation Characteristics in Ultrasonic Atomization
- The Effect of Operational Condition on the Contribution of Evaporation in Ultrasonic Atomization
- Determining the Size of Colloidal Particles Using Ultrasonic Absorption Measurements
- Dynamics of V_2O_5 Sol by Measurement of Ultrasonically Induced Birefringence
- Ultrasonic Decomposition of a Mixture of Phenol and ρ-Chlorophenol in Aqueous Solution
- The Effect of a Reflection Plate on the Decomposition Performance of a Sonoreactor
- Development of a Bubble Column with a Gas-Liquid Simultaneous Injection Nozzle and a Downcomer for the Ozone Oxidation Method
- Development of a Rectangular Airlift Sonoreactor Combined with Sparging Ozone
- Effect of Packed Structure on the Liquid Flow Behavior in the Packed Bed Biofilter
- Effects of Particle Properties on Decomposition Performance in Ultrasonic Airlift Reactor
- Effect of Liquid Height on Flow Characteristics in Bubble Column Using Highly Viscous Liquid
- Reduction of Channeling Liquid Flow in Trickle Bed Using Non-Uniformly Packed Structure
- Effects of Packed Structure and Liquid Physical Properties on Liquid Flow Behaviors in Trickle Bed with Non-uniformly Packed Structure
- Effect of Orientation of Packing Structure on Liquid Flow Distribution in Trickle Bed
- Effects of Equipment Dimensions on Circulation Flow Rates of Luquid and Gas in Bubble Column with Draft Tube
- Effect of Liquid Height on Sonochemical Reaction in a Large-Scale Reactor of a Rectangular Parallelepiped Using Low Frequency Ultrasound
- Enhancement of Sonochemical Reaction by Dual-Pulse Ultrasound
- Field Tests on Silica Removal from Geothermal Brines in Sumikawa and Onuma Geothermal Areas
- Effect of Agitation Condition on Performance of Sonochemical Reaction
- Optimization of Sonochemical Reactors by Measuring Impedance of Transducer and Sound Pressure in Solution
- Flow and Heat Transfer Characteristics in Liquid-Solid Swirl Fluidized Bed Using Centrifugal Force
- Liquid Flow Rate Distribution in Trickle Bed with Non-Uniformly Packed Structure
- Wastewater Treatment by Anaerobic-Aerobic Activated Sludge Method in Bubble Column with Draft Tube
- Effect of CaO Addition on Rotted Material
- Effect of Liquid Mixing on Performance of Porphyrin Decomposition by Ultrasonic Irradiation
- Rotting Prevention by CaO in RDF Production
- Effect of Ultrasonic Frequency on Enzymatic Hydrolysis of Cellulose
- Effects of Operational Conditions on 1,4-Dioxane Degradation by Combined Use of Ultrasound and Ozone Microbubbles
- Effect of Pore Size on Performance of Hydrogen Fermentation with Porous Glass Beads
- Characteristics of Nanoemulsion Prepared by Tandem Acoustic Emulsification at a High Frequency
- Effect of Superposition Location of Ultrasonic Fields on Sonochemical Reaction Rate
- Effect of Superposition Location of Ultrasonic Fields on Sonochemical Reaction Rate
- P-21 Effect of Ultrasonic Irradiation Condition on Enzymatic Hydrolysis of Woods(Poster Presentations)
- S2. One Drop Solvent Microextraction Technique with an Aid of Ultrasound and Its Application in Trace Analysis(Oral Presentation)
- S11. A stud of acoustic streaming in sonoc emical reactor(Oral Presentation)
- P35. Effect of liquid properties on ultrasonic atomization amount(Poster Presentation)
- P43. Dispersion and coalescence of oil droplet under ultrasonic field(Poster Presentation)