TANINO Tadakazu

J-GLOBAL         Last updated: Nov 27, 2019 at 11:31
 
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Name
TANINO Tadakazu
Affiliation
National Institute of Technology,Kurume College
Section
Department of Mechanical Engineering
Job title
Associate Professor
Degree
Doctor(Engineering)(Kyushu University)

Research Interests

 
 

Research Areas

 
 

Academic & Professional Experience

 
Apr 2018
 - 
Today
Professor, Dept. of Mechanical Engineering, National College of Technology, Kurume College
 
Apr 2015
 - 
Mar 2018
Associate Professor, Department of Mechanical Engineering, National Institute of Technology, Kurume College
 
Apr 2007
 - 
Mar 2015
Associate Professor, Faculty of Engineering, Dept. of Mechanical Engineering, Nagasaki Institute of Applied Science
 
Oct 2004
 - 
Mar 2007
Associate Professor, Faculty of Engineering, Dept. of Mechanical Engineering, Nagasaki Institute of Applied Science
 
Apr 2002
 - 
Sep 2004
Lecturer, Faculty of Engineering, Dept. of Mechanical Engineering, Nagasaki Institute of Applied Science
 

Education

 
 
   
 
Graduate School, Division of Engineering, Kyushu University
 
 
 - 
1995
Faculty of Engineering, Kyushu University
 

Published Papers

 
Comparative Study on Upscaling of Cross-flow Wind Turbine with Two Flow Deflectors of Wind Collector Casing
Tadakazu Tanino, Hiroo Murakami, Masayuki Fukuda
WIND ENERGY   42(2) 25-31   Aug 2018   [Refereed]
A Study on the Fatigue Strength Improvement in Sea Water for Cruciform Welded Joint by Ultrasonic Peening
JIA Zi Meng, KATSUTA Junichi, TANINO Tadakazu, YAJIMA Hiroshi
(15) 38-44   Jul 2018   [Refereed]
C.Shiga, H.Murakawa, K.Hiraoka, N.Osawa, H.Yajima, T.Tanino, S.Tsutsumi, T.Fukui, H.Sawato, K.Kamita, T.Matsuzaki, T.Sugimura, T.Asoda and K.Hirota
Welding in the World   61(4) 769-788   2017
Warinsiriruk Eakkachai, Hashida Koei, Yamamoto Motomichi, Shinozaki Kenji, Kadoi Kota, Tanino Tadakazu, Yajima Hiroshi, Fukui Tsutomu, Nakayama Shin, Nose Tetsuro, Tsuchiya Syoko, Watanabe Hiroshi, Kanazawa Tatsunori
溶接学会論文集   33(2) 143-147   2015
Warinsiriruk Eakkachai, Hashida Koei, Yamamoto Motomichi, Shinozaki Kenji, Yajima Hiroshi, Tanino Tadakazu, Fukui Tsutomu, Nakayama Shin, Tsuchiya Shoko, Watanabe Hiroshi, Kanazawa Tatsunori
溶接学会論文集   33(4) 326-331   2015

Conference Activities & Talks

 
Design of the Tail Blade composing Wind Collector Casing without Mechanical Control to improve the Performance of Cross-flow Wind Turbine
TANINO Tadakazu, SETO Kohki
5 Dec 2018   
Study on Influence of the Camber Direction and Pitch Angle on the Performance of Small Lift-type Vertical Wind Turbine by using Gurney Flap
TANINO Tadakazu, YOSHIMOTO Hironobu, HASHIMOTO Shuntaro
5 Dec 2018   
STUDY ON UPSCALING OF CROSS-FLOW WIND TURBINE WITH TWO FLOW DEFLECTORS AS WIND COLLECTOR
Tadakazu Tanino, Hiroo Murakami, Masayuki Fukuda
Grand Renewable Energy 2018 International Conference and Exhibition   Jun 2018   
Study on Upscaling of a Cross-flow Wind Turbine with Wind Collector Consisted of Two Flow Deflectors
TANINO Tadakazu, MURAKAMI Hiroo, FUKUDA Masayuki
Dec 2017   
Study of a Casing with Two Flow Deflector Plates for Performance Improvement of a Cross-flow Wind Turbine by CFD Analyses
Tadakazu Tanino, Takeshi Miyaguni
Proceedings of the 15th World Wind Energy Conferenceand Exhibition 2016, D-4-5   2016   

Research Grants & Projects

 
Field tests of Small propeller type windmills above a building
Frontier Research
Project Year: 2003   
Comparative study of performance of small propeller type windmills located at each different position for height and distance from sidewall of building above building
Improving ambient wind environment of cross-flow wind turbine
Project Year: 2002   
To get optimum condition of ambient wind environment for the performance of Cross-flow wind turbine by using Inlet Guide Structure and Flow Deflector etc.
Evaluation of Performance of Lift Type Vertical Axis Wind Turbine by Small Size Test Facility
Project Year: 2008   
We evaluate the performance of Lift Type Vertical Axis Wind Turbine by Small Size Test Model and try to get higher performance of the wind turbine by aerodynamical approaches.