TATSUSHI MATSUYAMA
Title
Cited by
Cited by
Year
Triboelectric charging of powders: A review
S Matsusaka, H Maruyama, T Matsuyama, M Ghadiri
Chemical Engineering Science 65 (22), 5781-5807, 2010
4532010
Maximum organic loading rate for the single-stage wet anaerobic digestion of food waste
N Nagao, N Tajima, M Kawai, C Niwa, N Kurosawa, T Matsuyama, ...
Bioresource Technology 118, 210-218, 2012
2492012
The effect of the labile organic fraction in food waste and the substrate/inoculum ratio on anaerobic digestion for a reliable methane yield
M Kawai, N Nagao, N Tajima, C Niwa, T Matsuyama, T Toda
Bioresource technology 157, 174-180, 2014
1202014
Triboelectrification of pharmaceutical powders by particle impact
H Watanabe, M Ghadiri, T Matsuyama, YL Ding, KG Pitt, H Maruyama, ...
International journal of pharmaceutics 334 (1-2), 149-155, 2007
1132007
Charge relaxation process dominates contact charging of a particle in atmospheric conditions
T Matsuyama, H Yamamoto
Journal of Physics D: Applied Physics 28 (12), 2418, 1995
1031995
Charge relaxation process dominates contact charging of a particle in atmospheric conditions
T Matsuyama, H Yamamoto
Journal of Physics D: Applied Physics 28 (12), 2418, 1995
1031995
Insulator–insulator contact charging and its relationship to atmospheric pressure
MD Hogue, CR Buhler, CI Calle, T Matsuyama, W Luo, EE Groop
Journal of electrostatics 61 (3-4), 259-268, 2004
772004
Impact charging of particulate materials
T Matsuyama, H Yamamoto
Chemical Engineering Science 61 (7), 2230-2238, 2006
742006
Impact charging of particulate materials
T Matsusyama, H Yamamoto
Chemical Engineering Science 61 (7), 2230-2238, 2006
742006
Experimental study on electrostatic atomization of highly viscous liquids
H Watanabe, T Matsuyama, H Yamamoto
Journal of Electrostatics 57 (2), 183-197, 2003
712003
Charge-relaxation process dominates contact charging of a particle in atmospheric condition: II. The general model
T Matsuyama, H Yamamoto
Journal of Physics D: Applied Physics 30 (15), 2170, 1997
661997
Measurement of charge transfer due to single particle impact
H Watanabe, A Samimi, YL Ding, M Ghadiri, T Matsuyama, KG Pitt
Particle & Particle Systems Characterization 23 (2), 133-137, 2006
572006
Impact charging experiments with single particles of hundred micrometre size
T Matsuyama, M Ogu, H Yamamoto, JCM Marijnissen, B Scarlett
Powder technology 135, 14-22, 2003
552003
Luminescence and crystallinity of flame-made Y2O3: Eu3+ nanoparticles
A Camenzind, R Strobel, F Krumeich, SE Pratsinis
Advanced powder technology 18 (1), 5-22, 2007
492007
Immobilization of glucoamylase on ceramic membrane surfaces modified with a new method of treatment utilizing SPCP–CVD
J Ida, T Matsuyama, H Yamamoto
Biochemical engineering journal 5 (3), 179-184, 2000
492000
Characterizing the electrostatic charging of polymer particles by impact charging experiments
T Matsuyama, H Yamamoto
Advanced Powder Technology 6 (3), 211-220, 1995
431995
Charge transfer between a polymer particle and a metal plate due to impact
T Matsuyama, H Yamamoto
IEEE transactions on industry applications 30 (3), 602-607, 1994
391994
Preparation of immobilized enzyme gel particles using an electrostatic atomization technique
H Watanabe, T Matsuyama, H Yamamoto
Biochemical engineering journal 8 (2), 171-174, 2001
382001
Surfactant effect of H atoms on the suppression of Ge segregation in Si overgrowth on Ge (n ML)/Si (100) substrates by gas source molecular beam epitaxy
S Zaima, K Sato, T Kitani, T Matsuyama, H Ikeda, Y Yasuda
Journal of crystal growth 150, 944-949, 1995
381995
Straight-chained thermo-responsive polymer with high chelating group content for heavy metal ion recovery
K Mizoguchi, J Ida, T Matsuyama, H Yamamoto
Separation and purification technology 75 (1), 69-75, 2010
362010
The system can't perform the operation now. Try again later.
Articles 1–20