Yoshida Mikio

Affiliation and department：

Research field (1)： Transfer phenomena and unit operations

Research theme for competitive and other funds (5)：

2021 - 2023 スラリーの粘度低減効果に及ぼす微小粒子添加時の液体条件および添加条件の影響
2016 - 2019 Effects of particle surface coverage states on improving particle flowability in a smaller particle admixing system
2012 - 2015 Evaluation of particle mixture-state using sonic properties
2009 - 2010 Measurement of a sink velocity of an object in a gas-solid fluidized bed and development of a new fluidized bed separator for improvement of a separation speed
2007 - 2008 Development of high-accuracy dry dense medium separation by controlling fluidization of a gas-solid fluidized bed

Papers (81)：

Mikio Yoshida, Daisuke Tsujimoto, Atsuko Shimosaka, Yoshiyuki Shirakawa. Effects of coating structures prepared under various mixing strength conditions for main and smaller admixed particles on improving compacted packing fraction. Particulate Science and Technology. 2024. 42. 49-57
Akito Sato, Mikio Yoshida, Yoshiyuki Shirakawa. Development of Composite Technology for Particles Containing Unsaturated Fatty Acid Using an Inkjet Nozzle. Journal of the Society of Powder Technology, Japan. 2023. 60. 6. 333-340
Taichi KIMURA, Mikio YOSHIDA, Ryo HARADA, Hideto TANIMOTO, Masakazu MATSUMOTO, Yoshiyuki SHIRAKAWA. Effect of Taylor Vortex Flow on Powder Properties in a Synthesis Process of Hydrocalumite from Simulated Seawater. Salt and Seawater Science & Technology. 2023. 3. 13-21
Taichi Kimura, Riko Iwamoto, Mikio Yoshida, Tatsuya Takahashi, Shuji Sasabe, Yoshiyuki Shirakawa. Evaluation of a Coating Process for SiO2/TiO2 Composite Particles by Machine Learning Techniques. KONA Powder and Particle Journal. 2023. 236-249
Taichi Kimura, Hikari Fujii, Mikio Yoshida, Shinya Yamanaka, Ryo Harada, Hideto Tanimoto, Yoshiyuki Shirakawa. Impurity effects on particle properties of hydrocalumite synthesized from concentrated seawater. Advanced Powder Technology. 2022. 33. 11

ｍore...

MISC (2)：

Development of the particle morphology control technology used an electrostatic atomization process in liquid phase. 2016. 25. 32-35
Investigation of Adequate Parameter for Correlation Between Performance of Screw-feeder and Powder Characteristics. 2011. 49. 47-51

Professional career (1)：

Work history (3)：

Doshisha University Faculty of Science and Engineering Department of Chemical Engineering and Materials Science
Okayama University The Graduate School of Natural Science and Technology (Doctor Course) Division of Chemistry and Biochemistry
Okayama University The Graduate School of Natural Science and Technology

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