宮南 啓 | Department of Chemical Engineering, University of Osaka Prefecture
スポンサーリンク
概要
関連著者
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宮南 啓
大阪府大
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宮南 啓
Department of Chemical Engineering, University of Osaka Prefecture
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綿野 哲
大阪府立大学大学院
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綿野 哲
Department Of Chemical Engineering University Of Osaka Prefecture
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寺下 敬次郎
Department of Chemical Engineering, University of Osaka Prefecture
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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 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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佐藤 嘉信
Department Of Chemical Engineering University Of Osaka Prefecture
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村上 孝之
Taiho Pharmaceutical Co. Ltd.
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寺下 敬次郎
大阪府立大学大学院工学研究科
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伊藤 義弘
Fuji Paudal Co. Ltd.
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釜田 哲郎
Fuji Paudal Co., Ltd.,
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小田 宣人
Fuji Paudal Co., Ltd.,
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小田 宣人
Fuji Paudal Co. Ltd.
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釜田 哲郎
Fuji Paudal Co. Ltd.
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和田 育子
Department Of Chemical Engineering University Of Osaka Prefecture
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Wada I
Department Of Chemical Engineering University Of Osaka Prefecture
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佐藤 利治
大鵬薬品工業株式会社品質管理部生産技術一課
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福島 徹
Department of Chemical Engineering, University of Osaka Prefecture
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村上 孝之
Quality Control Department, Taiho Pharmaceutical Co., Ltd.,
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佐藤 利治
Quality Control Department, Taiho Pharmaceutical Co., Ltd.,
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山本 明子
Department Of Chemical Engineering University Of Osaka Prefecture
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加藤 雅也
大阪府大 工
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永見 信正
Taiho Pharmaceutical Co., Ltd.,
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高島 英夫
Department Of Chemical Engineering Osaka Prefecture University
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原田 努
Department Of Chemical Engineering University Of Osaka Prefecture
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高屋 裕子
Department of Chemical Engineering, University of Osaka Prefecture
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加藤 雅也
Department Of Chemical Engineering University Of Osaka Prefecture
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Morikawa Takashi
Department Of Chemical Engineering University Of Osaka Prefecture
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森川 隆史
Department Of Chemical Engineering University Of Osaka Prefecture
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高屋 裕子
Department Of Chemical Engineering University Of Osaka Prefecture
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福島 徹
Department Of Chemical Engineering University Of Osaka Prefecture
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大池 敦夫
Technological Development Laboratories Fujisawa Pharmaceutical Co. Ltd.
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OHIKE Atsuo
Technological Development Laboratories, Fujisawa Pharmaceutical Co., Ltd.,
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吉川 季代美
Department of Chemical Engineering, University of Osaka Prefecture
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Ohike Atsuo
Technological Development Laboratories Fujisawa Pharmaceutical Co. Ltd.
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永見 信正
Taiho Pharmaceutical Co. Ltd.
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吉川 季代美
Department Of Chemical Engineering University Of Osaka Prefecture
著作論文
- Automation of the Manufacturing Process of Cold Remedy Granules by a Tumbling Fluidized Bed Applying the Fuzzy Control Method
- Scale-Up of Agitation Fluidized Bed Granulation. III. Effects of Powder Feed Weight and Blade Angle on Granule Size, Density and Shape
- Scale-Up of Agitation Fluidized Bed Granulation. II. Effects of Scale, Air Flow Velocity and Agitator Rotational Speed on Granule Size, Size Distribution, Density and Shape
- Scale-Up of Agitation Fluidized Bed Granulation. I. Preliminary Experimental Approach for Optimization of Process Variables
- Evaluation of Aqueous Enteric Coated Granules Prepared by Moisture Control Method in Tumbling Fluidized Bed Process
- Modeling and Simulation of Drug Release from Granule Coated with an Aqueous-Based System of Acrylic Copolymer
- Modeling Drug Release from Granules Coated with an Aqueous-Based System of Acrylate Methacrylate : Effect of Moisture Content on the Kinetics of Drug Release
- Analysis of End-Point with Power Consumption in High Speed Mixer
- ニューラルネットワークを用いた流動層造粒の水分制御
- Kinetics of Granule Growth in Fluidized Bed Granulation with Moisture Control
- Scale-Up of Agitation Fluidized Bed Granulation. IV. Scale-Up Theory Based on the Kinetic Energy Similarity
- Effects of Operational Variables on the Properties of Granules Prepared by Moisture Control Method in Tumbling Fluidized Bed Granulation
- Development and Application of Moisture Control System with IR Moisture Sensor to Aqueous Polymeric Coating Process
- Frequency Analysis of Power Consumption in Agitation Granulation of Powder Materials with Sparingly Soluble Acetaminophen
- Determination of End-Point with a Complex Granulation Applying Infrared Moisture Sensor
- Determination of End-Point by Frequency Analysis of Power Consumption in Agitation Granulation