Date:2020.05.04
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Shuji Matsusaka Professor, Dr. Chemical Engineering, Graduate School of Engineering, Kyoto University |
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1) Education experience;
Ø PhD. in Engineering, Kyoto University (1993)
Ø MS. in Engineering, Hiroshima University (1983)
Ø BS. in Engineering, Hiroshima University (1981)
2) Work experience;
Ø Professor of Chemical Engineering, Kyoto University (2009-Present)
Ø Vice-president of International Federation of Measurement and Control of Granular Materials IFMCGM (2008-Present)
Ø Councilor of The Society of Powder Technology, Japan (2019-Present)
Ø Delegate of The Institute of Electrostatics Japan (2016-Present)
Ø Director of The Society of Powder Technology, Japan (2003-2018)
Ø Editor-in-Chief of Advanced Powder Technology,Elsevier (2013-2018)
Ø Director of The Institute of Electrostatics Japan (2007-2016)
Ø Director of Japan Association of Aerosol Science and Technology (2010-2012)
Ø Associate Professor of Chemical Engineering, Kyoto University (1997-2009)
Ø Visiting Professor, Chemical & Process Engineering, University of Surrey, UK(1999-2000)
Ø Lecturer of Chemical Engineering, Kyoto University (1996-1997)
Ø Research Associate of Chemical Engineering, Kyoto University (1989-1995)
Ø Toray Engineering Co. Ltd 1983-1989
3) Main academic achievements;
Ø Fundamentals and applications of particle electrification
l Particle electrostatic charging by atmospheric pressure low-temperature plasma.
l Analysis of triboelectric charging of fine particles.
l Development of a particle charge controller using centrifugal force and its application.
l Characterization of fine particles triboelectrically charged in gas–solid pipe flow.
l Characterization of particles triboelectrically charged by a two-stage system with vibrations and external electric fields.
Ø Analysis and control of adhesion and flowability of particles
l Analysis of adhesive strength distributions of particles subjected to various external forces.
l Analysis of flowability profiles.
Ø Handling of submicron- and nanoparticles
l Control of the movement of fine particles using multiple vibration modes.
l Development of a novel fluidized bed system using vibration convection mechanism.
l Development of micro-feeding of nanoparticles based on vibration shear flow.
l Development of a pneumatic transport system for nanoparticles.
4) Selected publications (10 items)
Ø Shoyama, M. and S. Matsusaka; Mechanism of disintegration of charged agglomerates in non-uniform electric field, Chemical Engineering Science, 198, 155-164 (2019).
Ø Shoyama, M., T. Kawata, M. Yasuda and S. Matsusaka; Particle electrification and levitation in a continuous particle feed and dispersion system with vibration and external electric fields, Advanced Powder Technology, 29, 1960-1967 (2018).
Ø Kobayakawa, M., S. Kiriyama, M. Yasuda, S. Matsusaka; Microscopic Analysis of Particle Detachment from an Obliquely Oscillating Plate, Chemical Engineering Science, 123, 388-394 (2015).
Ø Mizutani, M., M. Yasuda and S. Matsusaka; Advanced Characterization of Particles Triboelectrically Charged by a Two-Stage System with Vibrations and External Electric Fields, Advanced Powder Technology, 26, 454-461 (2015)
Ø Horio, T., M. Yasuda and S. Matsusaka; Effect of Particle Shape on Powder Flowability of Microcrystalline Cellulose as Determined using the Vibration Shear Tube Method, International Journal of Pharmaceutics, 473, 572-578 (2014).
Ø Bunchatheeravate, P., J. Curtis, Y. Fujii and S. Matsusaka; Prediction of Particle Charging in a Dilute Pneumatic Conveying System, AIChE Journal, 59, 2308-2316 (2013).
Ø Matsusaka, S., H. Maruyama, T. Matsuyama, M. Ghadiri; Triboelectric Charging of Powders, Chemical Engineering Science, 65, 5781-5807 (2010).
Ø Yao, J., Y. Zhang, C.-H. Wang, S. Matsusaka and H. Masuda; Electrostatics of the Granular Flow in a Pneumatic Conveying System, Industrial & Engineering Chemistry Research, 43, 7181-7199 (2004).
Ø Matsusaka, S. and H. Masuda; Electrostatics of Particles, Advanced Powder Technology, 14, 143-166 (2003).
Ø Matsusaka, S., M. Ghadiri and H. Masuda; Electrification of an Elastic Sphere by Repeated Impacts on a Metal Plate, Journal of Physics D: Applied Physics, 33, 2311-2319 (2000).
5) Academic awards
Ø The SCEJ Award for Outstanding Research Achievement by the Society of Chemical Engineers, Japan (2018).
Ø APT Distinguished Paper Award by the Society of Powder Technology, Japan (2018).
Ø Best Paper Award by the Society of Powder Technology, Japan (2018).
Ø Best Paper Award by the Imaging Society of Japan (2010).
Ø Best Paper Award by The Society of Powder Technology, Japan (2002).
Ø Distinguished Achievement Award by the Information Center of Particle Technology, Japan (2002).
Iinoya Award by the Japanese Association of Aerosol Science and Technology (1995).