Prediction of minimum fluidization velocity for vibrated fluidized bed Y Mawatari, Y Tatemoto, K Noda Powder technology 131 (1), 66-70, 2003 | 104 | 2003 |
Flow patterns of fine particles in a vibrated fluidized bed under atmospheric or reduced pressure K Noda, Y Mawatari, S Uchida Powder Technology 99 (1), 11-14, 1998 | 95 | 1998 |
Effect of particle diameter on fluidization under vibration Y Mawatari, T Koide, Y Tatemoto, S Uchida, K Noda Powder Technology 123 (1), 69-74, 2002 | 91 | 2002 |
Numerical simulation of particle motion in vibrated fluidized bed Y Tatemoto, Y Mawatari, T Yasukawa, K Noda Chemical engineering science 59 (2), 437-447, 2004 | 78 | 2004 |
Numerical simulation of cohesive particle motion in vibrated fluidized bed Y Tatemoto, Y Mawatari, K Noda Chemical Engineering Science 60 (18), 5010-5021, 2005 | 53 | 2005 |
Comparison of three vibrational modes (twist, vertical and horizontal) for fluidization of fine particles Y Mawatari, T Koide, Y Tatemoto, T Takeshita, K Noda Advanced Powder Technology 12 (2), 157-168, 2001 | 47 | 2001 |
Favorable vibrated fluidization conditions for cohesive fine particles Y Mawatari, M Tsunekawa, Y Tatemoto, K Noda Powder technology 154 (1), 54-60, 2005 | 46 | 2005 |
Prediction of agglomerate size for fine particles in a vibro-fluidized bed Y Mawatari, T Ikegami, Y Tatemoto, K Noda Journal of chemical engineering of Japan 36 (3), 277-283, 2003 | 40 | 2003 |
Drying characteristics of porous material immersed in a bed of glass beads fluidized by superheated steam under reduced pressure Y Tatemoto, S Yano, Y Mawatari, K Noda, N Komatsu Chemical Engineering Science 62 (1-2), 471-480, 2007 | 39 | 2007 |
Model for Calculation of Agglomerate Sizes of Nanoparticles in a Vibro‐fluidized Bed H Wang, T Zhou, JS Yang, JJ Wang, H Kage, Y Mawatari Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2010 | 31 | 2010 |
Behavior of magnetic Fe3O4 nano-particles in magnetically assisted gas-fluidized beds L Zhou, R Diao, T Zhou, H Wang, H Kage, Y Mawatari Advanced Powder Technology 22 (3), 427-432, 2011 | 30 | 2011 |
Model of estimating nano-particle agglomerate sizes in a vibro-fluidized bed L Zhou, H Wang, T Zhou, K Li, H Kage, Y Mawatari Advanced Powder Technology 24 (1), 311-316, 2013 | 29 | 2013 |
Drying characteristics of porous materials in a fluidized bed under reduced pressure Y Tatemoto, Y Mawatari, K Sugita, K Noda, N Komatsu Drying technology 23 (6), 1257-1272, 2005 | 29 | 2005 |
Flow pattern transition of fine cohesive powders in a gas-solid fluidized bed under mechanical vibrating conditions Y Mawatari, Y Hamada, M Yamamura, H Kage Procedia engineering 102, 945-951, 2015 | 26 | 2015 |
Drying characteristics of porous material in a fluidized bed of fluidizing particles with superheated steam Y Tatemoto, Y Mawatari, K Sakurai, K Noda, N Komatsu Journal of chemical engineering of Japan 36 (6), 655-662, 2003 | 25 | 2003 |
Effect of vertical vibration and particle size on the solids hold-up and mean bubble behavior in a pseudo-2D fluidized bed E Cano-Pleite, Y Shimizu, A Acosta-Iborra, Y Mawatari Chemical Engineering Journal 304, 384-398, 2016 | 22 | 2016 |
Measuring the drying rate of liquid film coatings using heat flux method M Yamamura, K Ohara, Y Mawatari, H Kage Drying Technology 27 (6), 817-820, 2009 | 22 | 2009 |
Drying‐induced surface roughening of polymeric coating under periodic air blowing M Yamamura, T Uchinomiya, Y Mawatari, H Kage AIChE journal 55 (7), 1648-1658, 2009 | 19 | 2009 |
Effect of motion of drying materials in fluidized bed on drying characteristics Y Tatemoto, Y Mawatari, K Saito, K Noda Journal of chemical engineering of Japan 35 (8), 753-758, 2002 | 19 | 2002 |
Multiple crack nucleation in drying nanoparticle-polymer coatings M Yamamura, H Ono, T Uchinomiya, Y Mawatari, H Kage Colloids and Surfaces A: Physicochemical and Engineering Aspects 342 (1-3 …, 2009 | 18 | 2009 |