Nur Syahirah Kamal Baharin, Supitchaya Cherdkeattikul, Nami Kanada, Hirofumi Hara, Satoru Mizuno, Toru Sawai, Manabu Fuchihata, Tamio Ida. Impact and effectiveness of Bio-Coke conversion from biomass waste as alternative source of coal coke in Southeast Asia. Journal of Material Cycles and Waste Management. 2022. 25. 1. 17-36
Nami Tagami-Kanada, Koji Yoshikuni, Satoru Mizuno, Toru Sawai, Manabu Fuchihata, Tamio Ida. Combustion characteristics of densified solid biofuel with different aspect ratios. Renewable Energy. 2022. 197. 1174-1182
Nami Tagami-Kanada, Satoru Mizuno, Supitchaya Cherdkeattikul, Tamio Ida. Estimation of maximum Bio-coke compressive strength based on chemical composition. MECHANICAL ENGINEERING JOURNAL. 2021. 8. 1
Fumiya Moriyama, Satoru Mizuno, Nami Tagami-Kanada, Toru Sawai. Evaluation of energy properties of torrefied biomass for a given pyrolysis condition by isothermal pyrolysis kinetics. MECHANICAL ENGINEERING JOURNAL. 2021. 8. 3
Hiroki IMAMURA, Satoru MIZUNO, Toru SAWAI, Takeshi KAJIMOTO. Effect of torrefaction on flow characteristics of thermo-fluid wood powder by hot extrusion process. Proceedings of ISEM'16. 2016
Mizuno Satoru, Ida Tamio, Fuchihata Manabu, Yoshikuni Koji. OS24-2 Study of Relationship between Pore Sizes and Combustion Characteristics about Bio-coke(Scale modeling on solid combustion,OS24 Scale modeling,FLUID AND THERMODYNAMICS). Abstracts of ATEM : International Conference on Advanced Technology in Experimental Mechanics : Asian Conference on Experimental Mechanics. 2015. 2015. 14. 290-290
Hamidun Omar bin, Ida Tamio, Mizuno Satoru, Sawai Toru. OS24-9 Effect of Particle Size on the Strength of Palm Fiber Bio-coke(Bio-coke characteristics,OS24 Scale modeling,FLUID AND THERMODYNAMICS). Abstracts of ATEM : International Conference on Advanced Technology in Experimental Mechanics : Asian Conference on Experimental Mechanics. 2015. 2015. 14. 297-297
MIZUNO Satoru, IDA Tamio, FUCHIHATA Manabu, YOSHIKUNI Koji, NAMBA Kunihiko. J0530104 Effect on combustion characteristics caused by pore structure of Bio-coke. Mechanical Engineering Congress, Japan. 2015. 2015. "J0530104-1"-"J0530104-5"
Compressive Strength and Grinding Characteristics of Bio-coke Produced from Different Grain Size Materials
(2021)
A long-term stockpiling characteristic evaluation of Bio-coke by TAM
(The 55th Japanese Conference on Calorimetry and Thermal Analysis 2019)
Non-destructive evaluation of Biocoke by gloss value
(International Workshop on Environmental Engineering 2019 2019)
A Study on Radial Burning Velocity for Cross Section of Biomass Solid fuel
(The 56th Symposium on Combustion 2018)
Possibility of Compressive Strength Increase of Biocoke by Japanese Cedar Lignin
(13th International Symposium on Advanced Science and Technology in Experimental Mechanics 2018)
2013/04 - 現在 Kinki University Research Institute of Biocoke Research Assistant
Awards (3):
2017/08 - The Japanese Society for Experimental Mechanics Technology Award of The Japanese Society for Experimental Mechanics Volume Reduction of Radiation-Exposed Biomass using by Biocoke Technology
2015/05 - Smart Processing Society for Materials, Environment & Energy Young Researcher's Award Effect on Physical Characteristics of High-density and High-hardness Solid Fuel Produced by Raw Rice Husk with Different Crushing Particle Size
2014/05 - Smart Processing Society for Materials, Environment & Energy Young Researcher's Award A Study on the Physical Properties as Affected by Formation Conditions of High Density Bio-solid Fuel Made from Green Tea
Association Membership(s) (3):
SMART PROCESSING SOCIETY FOR MATERIALS, ENVIRONMENT & ENERGY
, THE JAPANESE SOCIETY FOR EXPERIMENTAL MECHANICS
, THE JAPAN SOCIETY OF MECHANICAL ENGINEERS