Miyanami Kei | Department Of Chemical Engineering Osaka Prefecture University
スポンサーリンク
概要
関連著者
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Miyanami Kei
Department Of Chemical Engineering Osaka Prefecture University
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Watano Satoru
Department Of Chemical Engineering Graduate School Of Engineering Osaka Prefecture University
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Watano Satoru
Department Of Chemical Engineering Osaka Prefecture University
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MIYANAMI KEI
Department of Chemical Engineering, Osaka Prefecture University
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Miyanami K
Department Of Chemical Engineering Osaka Prefecture University
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Watano S
Osaka Prefecture University
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Watano Satoru
Department of Chemical Engineering, Graduate School of Engineering, Osaka Prefecture University
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佐藤 美洋
北海道大学大学院薬学研究院
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SATO Yoshinobu
Department of Chemistry, Faculty of Science and Engineering, Sophia University
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Sato Y
Osaka Prefecture University
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Sato Y
(present Address)tsukuba Research Institute Banyu Pharmaceutical Co. Ltd.
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佐藤 嘉信
Department Of Chemical Engineering University Of Osaka Prefecture
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Sato Yoshinobu
Department Of Chemical Engineering Osaka Prefecture University
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Sato Yoshinobu
Department of Applied Physics,School of Engineering,Nagoya University
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Yano Takeo
Department of Chemical Engineering, College of Engineering, University of Osaka Prefecture
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Takashima Hideo
Department Of Cardiology Fukuoka University
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Takashima Hideo
Department Of Chemical Engineering Osaka Prefecture University
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Takashima Hideo
Department Of Cardiology Fukuoka University Hospital School Of Medicine
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Tojo Kakuji
Department Of Biochemical Engineering And Science College Of Computer Science And Systems Engineerin
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YASUTOMO Teruhito
Taiho Pharmaceutical Co., Ltd.
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Yasutomo Teruhito
Control Department Taiho Pharmaceutical Co. Ltd.
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関川 善夫
Department Of Pharmaceutical Sciences National Institute Of Public Health
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takashima hideo
Department of Cardiology, Fukuoka University School of Medicine
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Sato Y
Kyoritsu College Of Pharmacy
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Morikawa Takashi
Department Of Chemical Engineering University Of Osaka Prefecture
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Fukushima T
Faculty Of Pharmacy And Parmaceutical Sciences Fukuyama University
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Fukushima Toru
Department Of Urology Kanazawa University School Of Medicine.
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Yeh Nan
Department Of Chemical Engineering Osaka Prefecture University
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Morikawa Takashi
Department Of Biochemistry & Immunochemistry Research Division Panapharm Laboratories Co. Ltd.
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Fukushima Toru
Department of Chemical Engineering, University of Osaka Prefecture
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Pfeffer R
New Jersey Inst. Technol. Nj Usa
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IMADA Yasushi
Department of Chemistry, Graduate School of Engineering Science, Osaka University
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Ohnishi Yasuharu
Department Of Pathogenic Biochemistry Institute Of Natural Medicine Toyama Medical And Pharmaceutica
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OSAKO Yoshifumi
Research and Development Department, Fuji Paudal Co., Ltd.
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Miyanami Kei
Department Of Chemical Engineering University Of Osaka Prefecture
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Imada Yasushi
Department Of Chemical Engineering Osaka Prefecture University
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Tanaka Tomoaki
Department Of Clinical Endocrinology And Metabolism Chiba University Hospital
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TERASHITA Keijiro
Department of Engineering, Osaka Prefecture University
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Ohnishi Y
Pharmaceutical Research Lab. Taiho Pharmaceutical Co. Ltd.
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Fan Liang-shih
Department Of Chemical Engineering The Ohio State University
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WU Chang-Yu
Department of Environmental Engineering Sciences, University of Florida
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DAVE Rejesh
Particle Processing Research Center, New Jersey Institute of Technology
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PFEFFER Robert
Particle Processing Research Center, New Jersey Institute of Technology
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YOSHIDA Taizo
Tokuju Corporation
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Dave R
Univ. Heights Nj Usa
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Wu Chang-yu
Department Of Environmental Engineering Sciences University Of Florida
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FURUKAWA JYUNPEI
Department of Chemical Engineering, Osaka Prefecture University
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UCHIGAMI Masafumi
Department of Chemical Engineering, University of Osaka Prefecture
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NAN Yeh
Department of Chemical Engineering, Osaka Prefecture University
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Suzuki Teruo
Department Of Chemical Engineering Osaka Prefecture University
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Uchigami Masafumi
Department Of Chemical Engineering University Of Osaka Prefecture
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Yamamoto Atsuko
Department Of Chemical Engineering Osaka Prefecture University
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Yeh N
Osaka Prefecture Univ. Osaka Jpn
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TAIRA Toshinari
Department of Chemical Engineering, Osaka Prefecture University
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ANDO Kengo
Department of Chemical Engineering, Osaka Prefecture University
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II Yoshinori
One Pharmaceutical Co., Ltd.,
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SASATANI Seiei
One Pharmaceutical Co., Ltd.,
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Ando Kengo
Department Of Chemical Engineering Osaka Prefecture University
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Ii Yoshinori
One Pharmaceutical Co. Ltd.
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Sasatani Seiei
One Pharmaceutical Co. Ltd.
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Tanaka Tomoaki
Department Of Agricultural Chemistry Faculty Of Agriculture Tohoku University:basic Research Laborat
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Tanaka Tomoaki
Department Of Chemical Engineering University Of Osaka Prefecture
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Terashita Keijiro
Department Of Chemical Engineering Osaka Prefecture University
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Furukawa Jyunpei
Department Of Chemical Engineering Osaka Prefecture University
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Taira Toshinari
Department Of Chemical Engineering Osaka Prefecture University
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Takashima Hideo
Department of Chemical Engineering, Osaka Prefecture University
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FAN L.
Department of Chemical Engineering, Kansas State University
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FAN LIANG-SHIH
Department of Chemical Engineering, Kansas State University
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YANO TAKEO
Department of Chemical Engineering, University of Osaka Prefecture
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SATO MUNETAKE
Department of Chemical Engineering, University of Osaka Prefecture
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CHSAKA SHIGEMI
Department of Chemical Engineering, University of Osaka Prefecture
著作論文
- Optimization and validation of an image processing system in fluidized bed granulation
- IR absorption characteristics of an IR moisture sensor and mechanism of water transfer in fluidized bed granulation
- Control Granule Growth in Fluidized Bed Granulation by an Image Processing System
- Measurement of Moisture Content by IR Sensor in Fluidized Bed Granulation. Effects of Operating Variables on the Relationship between Granule Moisture Content and Absorbance of IR Spectra
- Control of moisture content by adaptive fuzzy control in agitation fluidized bed granulation
- APPLICATION OF FUZZY LOGIC TO MOISTURE CONTROL IN FLUIDIZED BED GRANULATION
- Heat Transfer and the Mechanism of Drying in Agitation Fluidized Bed
- Surface Modification of Food Fiber by Dry Particle Coating
- Scale-Up of Agitation Fluidized Bed Granulation by Neural Network
- Scale-Up of Agitation Fluidized Bed Granulation. V. Effect of Moisture Content on Scale-Up Characteristics
- Quantitative evaluation of kneading and extrusion processes by pressure transmission characteristics of wet kneaded masses
- Modeling of Agitation Fluidized Bed Granulation by Random Coalescence Model
- Heat Transfer and Granule Growth Rate in Fluidized Bed Granulation
- Mathematical Model in the Kinetics of Agitation Fluidized Bed Granulation. Effects of MOisture Content, Damping Speed and Operation Time on Granule Growth Rate
- COMPUTER SIMULATION OF AGITATION FLUIDIZED BED GRANULATION BY A TWO-DIMENSIONAL RANDOM ADDITION MODEL
- COMPUTER SIMULATION OF FLUIDIZED BED GRANULATION BY A TWO-DIMENSIONAL RANDOM COALESCENCE MODEL
- Drying of Granules in Agitation Fluidized Bed
- A method for process monitoring and determination of operational end-point by frequency analysis of power consumption in agitation granulation
- Continuous Monitoring and Mechanism of Electrostatic Charge of Powder in Fluidized Bed Process
- Kneading and dispersion of positive electrode materials in a lithium ion secondary battery for high-density film
- Effect of Spray Mist Size on the Properties of Granules Prepared by Agitation Fluidized Bed Coating
- Preparation of Core Particles for Aqueous Film Coating Using Agitation Fluidized Bed
- GAS HOLDUP AND PRESSURE DROP IN A MULTISTAGE VIBRATING DISK COLUMN WITH COCURRENT GAS-LIOUID FLOW
- Control of moisture content in fluidized bed granulation by neural network.
- A model for extractive coal liquefaction. Modeling and simulation of NenKen process without coal particle disintegration.:MODELING AND SIMULATION OF NENKEN PROCESS WITHOUT COAL PARTICLE DISINTEGRATION
- APPLICABILITY OF DISPERSION MODEL TO A PACKED BED REACTOR WITH AN IRREVERSIBLE CHEMICAL REACTION OF THE 2ND ORDER
- MASS TRANSFER IN A MULTISTAGE VIBRATING DISK COLUMN WITH COCURRENT GAS-LIQUID FLOW
- THE EFFECT OF THE WAVE FORM OF DISK VIBRATION ON MASS TRANSFER IN A MULTISTAGE VIBRATING DISK COLUMN WITH COUNTERCURRENT LIQUID-LIQUID FLOW
- LIQUID-PHASE MIXING IN A MULTISTAGE VIBRATING-DISK COLUMN WITH CONCURRENT GAS-LIQUID FLOW
- TRACER INTRODUCTION BY ELECTROLYSIS