TSUCHIDA Yoichi

J-GLOBAL         Last updated: Jan 10, 2019 at 13:03
 
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Name
TSUCHIDA Yoichi
E-mail
tsuchida.yoichinitech.ac.jp
URL
http://tsuchida.web.nitech.ac.jp/
Degree
Doctor of Engineering(Osaka University), Master of Engineering(Nagoya Institute of Technology)
Research funding number
30144190

Research Areas

 
 

Academic & Professional Experience

 
 
   
 
Associate Professor, Nagoya Institute of Technology Graduate School of Engineering Omohi College
 
Apr 1978
 - 
Jul 1981
Niigata Prefectural Center of Industrial Science and Technology
 
Aug 1981
 - 
Today
Associate Professor, Graduate School of Engineering Omohi College, Nagoya Institute of Technology
 

Education

 
Apr 1972
 - 
Mar 1976
Mechanical Engineering, Faculty of Engineering, Nagoya Institute of Technology
 
Apr 1976
 - 
Mar 1978
Graduate School, Division of Engineering, Nagoya Institute of Technology
 

Published Papers

 
Effect of the Through-flow and Rotation in the flow between Two Concentric Spheres
Transactions of the Japan Society of Mechanical Engineers (B)   48(426) 238-244   Feb 1982   [Refereed]

Misc

 
Effect of the Through-flow and Rotation in the flow between Two Concentric Spheres
中林功一 土田陽一 小原宏明
Transactions of the Japan Society of Mechanical Engineers (B)   48(426) 238-244   Feb 1982
中林功一 土田陽一 大野裕司
Transactions of the Japan Society of Mechanical Engineers (B)   52(476) 1456-1462   Apr 1986
中林功一 土田陽一 石井伸治 鬼頭修己
Transactions of the Japan Society of Mechanical Engineers (B)   52(476) 1463-1469   Apr 1986
中林功一 土田陽一
Transactions of the Japan Society of Mechanical Engineers (B)   52(480) 2787-2793   Aug 1986

Conference Activities & Talks

 
Development of a New Double-product Centrifugal Classifier using Almost Rigidly Rotating Flow
Yoichi Tsuchida,Kyohei Hirano,Tetsuya Nakamura
第7回粒子テクノロジー世界会議   19 May 2014   Chinese Society of Particuology / Institute of Process Engineering, Chinese Academy of Sciences
On a new double-product centrifugal classifier, we simulated numerically and performed classification experiments. Consequently, we reached the following conclusions. (1) We get the scaling law of the cut size by the numerical simulations. (2) Flo...
Development of a Triple-product Centrifugal Classifier using Almost Rigidly Rotating Flow
Yoichi Tsuchida,Tetsuya Nakamura
第7回粒子テクノロジー世界会議   19 May 2014   Chinese Society of Particuology / Institute of Process Engineering, Chinese Academy of Sciences
On a centrifugal triple-product classifier, we have made classification experiments in order to verify the numerical performance. As a result, we obtained triple products from the feed-particles, but the experimental performance was worse than num...
Scaling Law in Performance of a New Accurate High-throughput Triple-product Classification System using Almost Rigidly Rotating Flow
Yoichi TSUCHIDA, Mikitaka SABA, Akira HIROSE
第6回粉体工学世界会議   26 Apr 2010   PARTECH
Improvement in Performance of a New Accurate High-throughput Triple-product Classification System using Almost Rigidly Rotating Flow
Yoichi TSUCHIDA, Mikitaka SABA, Akira HIROSE
第6回粉体工学世界会議   26 Apr 2010   PARTECH
Numerical Study on Improving Performance in a High-throughput Single-stage
Yoichi TSUCHIDA,Takuya KAIDO
18 Mar 2013   

Research Grants & Projects

 
Development of the High-throughput and Multiple-product Submicron Classification System Using Almost Rigidly Rotating Flow
Grant-in-Aid for Scientific Research
Project Year: Apr 2006 - Mar 2008
Improving the Efficiency of a Fine-particle Classification System Using Almost Rigidly Rotating Flow
JST Comprehensive Support Programs for Creation of Regional Innovation
Project Year: Apr 2007 - Mar 2008
Optimizing in Shape of Classifier in the High-accurate Fine-particle Classification Using Almost Rigidly Rotating Flow
JST Comprehensive Support Programs for Creation of Regional Innovation
Project Year: Apr 2008 - Mar 2009
Development of the Method of Improving Throughput in the High-accurate Fine-particle Classification Using Almost Rigidly Rotating Flow
JST Comprehensive Support Programs for Creation of Regional Innovation
Project Year: Apr 2009 - Mar 2010
Pursuit of Improving the Efficiency of a High-accurate Submicron Classification System Using Almost Rigidly Rotating Flow for Practical Application
Grant-in-Aid for Scientific Research
Project Year: Apr 2009 - Mar 2012