Research field (1):
Transfer phenomena and unit operations
Research keywords (2):
混合
, mixing
Research theme for competitive and other funds (2):
2023 - 2025 複数の液体混合を可能とする新たな邪魔板開発のための撹拌槽内未混合領域の解明
2023 - 2025 圧力振動場における気泡幾何形状の流体力学的な整理
Papers (76):
Haruki Furukawa, Takeru Tanaka, Yoshihito Kato. Comparison of mixing performance of HB impeller as large paddle impeller. International Journal of Chemical Engineering. 2024. 2024. 7131729
Haruki Furukawa, Riki Takahashi, Kenshi Fukuzawa, Yoshihito Kato, Yoshikazu Kato, Takahiro Nemoto, Ken-ichi Ago, Seung-Tae Koh. Development and evaluation of mixing performance of new type pitched paddle impeller (HR1000) for wastewater treatment. Journal of Advanced Manufacturing and Processing. 2024. e10181
Kenshi Fukuzawa, Riki Takahashi, Haruki Furukawa, Yoshihito Kato, Yoshikazu Kato, Takahiro Nemoto, Ken-Ichi Ago, Seung-Tae Koh. Power Correlation of Several Kinds of Glass-Lined Impellers. KAGAKU KOGAKU RONBUNSHU. 2024. 50. 4. 83-87
Kenshi Fukuzawa, Riki Takahashi, Haruki Furukawa, Yoshihito Kato, Seung-Tae Koh. Effect of Surface Roughness of Mixing Impeller on Power Consumption. KAGAKU KOGAKU RONBUNSHU. 2024. 50. 3. 78-81
Haruki Furukawa, Tomoki Ota, Yoshihito Kato. Effect of inside Surface Baffle Conditions on Just Drawdown Impeller Rotational Speed. International Journal of Chemical Engineering. 2024. 2024. 1-9
A novel mixing quipment for draw-down of floating solids with low rotational impeller speed
(NIT Technofair 2024 2024)
Development of a High-Viscosity Liquid Mixing Device Inspired by Power Consumption Correlation Equations
(12th Factory tour and Exchange Meeting for Young Researchers and Engineers 2024)
Tokai Chemical Industry Association
, The Society of Separation Process Engineers, Japan
, Subdivision of Mixing, Division of Fluid Particle Processing, SCEJ
, 化学工学会 産学官連携センター グローバルテクノロジー委員会
, The Society of Chemical Engineers, Japan