The Bubble Behavior in a New-type Horizontal Vibro-Fluidized Bed
スポンサーリンク
概要
- 論文の詳細を見る
The bubble sizes and distribution were measured in a horizontally two-dimensional vibro-fluidized bed. Glass bead of group B particles was fluidized at varying gas velocities, while the bed was vibrated at different frequencies and amplitudes to study the effect on the bubble behavior. Experimental results show that the local average bubble sizes under the vibration field are generally smaller than those without vibration. The local average bubble sizes are hardly affected with the change of vibration frequency, but increase with an increase in the vibration amplitude. Few bubbles were observed in the both side-well of a bed in the experiment at a gas velocity of 0.0907 m/s. Due to horizontal vibration, bubbles were too small to measure the bubble size in the lower area (H < 50 mm). The ratio of the maximum diameter to the minimum diameter of a bubble is not correlated well with vibration, superficial gas velocity and bed height.
- 2002-08-01
著者
-
Ogura Hironao
Department of Urban Environment Systems, Faculty of Engineering, Chiba University
-
Zhou Tao
Department of Cardiology, The Second Xiangya Hospital, Central South University
-
Zhou T
Department Of Chemistry University Of Science And Technology Of China
-
Zhou Tao
Department Of Applied Chemistry Kyushu Institute Of Technology
-
Kage H
Kyushu Inst. Technol. Fukuoka Jpn
-
Kage Hiroyuki
Department Of Applied Chemistry Kyushu Institute Of Technology
-
Ogura H
Department Of Applied Chemistry Kyushu Institute Of Technology
-
Ogura Hironao
Department Of Urban Environment Systems Chiba University
-
FUNAOKA Shunpei
Department of Applied Chemistry, Kyushu Institute of Technology
-
Funaoka Shunpei
Department Of Applied Chemistry Kyushu Institute Of Technology
-
Ogura Hironao
Department of Applied Chemistry, Kyushu Institute of Technology
関連論文
- Association Between Plasma Pregnancy-Associated Plasma Protein A and Restenosis After Percutaneous Coronary Angioplasty
- Effect of Surfactant on the Bridging Conformation of Associating Polymer and Suspension Rheology
- The Bubble Behavior in a New-type Horizontal Vibro-Fluidized Bed
- Study of Transition Probability of Low States of Alkali Metal Atoms with WBEPM Theory
- Effects of core material, operating temperature and time on microencapsulation by in situ polymerization method
- Operating conditions and microcapsules generated by in situ polymerization
- Reaction Activity of CaO Particles Prepared by Calcination of Some CaCO_3 Materials
- Fluidization behavior of glass beads under different vibration modules
- Frequency analysis of pressure fluctuation in fluidized bed plenum and its confidence limit for detection of various modes of fluidization
- Attrition of Granular Slug by Single Horizontal Jet Equipped in Fluidized Bed
- The effects of frequency and amplitude on the powder coating of fluidizing particles in a vibro-fluidized bed
- The coating surface and agglomeration of seed particles in a fluidized bed coater
- Suppressed Cracking in Drying Nanoparticle-Polymer Coatings at High Peclet Numbers
- Nonuniform Thinning of Polymeric Coatings under Marangoni Stress
- Drying-Rate Limit in Condenser Drying of Thin Film Coatings
- Calculation of High Rydberg Levels of Atom Zn with the WBEPM Theory(Atomic and Molecular Physics)
- Theoretical Study of Transition Probability for Oxygen Atom and Ions
- APPLICATION OF THE OBSTRUCTION MODEL TO ELUTRIATION OF MORE THAN ONE SPECIES OF PARTICLES FROM MULTICOMPONENT FLUIDIZED BED
- Behavior of magnetic Fe_3O_4 nano-particles in magnetically assisted gas-fluidized beds
- Effect to Surfactant on the Bridging Conformation of Associating Polymer and Suspension Rheology
- Enhanced Solvent Drying of Liquid Film Coatings by Fluorine-Base Polymeric Surfactant Addition
- Wetting-Induced Entrapment of a Droplet in a UV-Curable Volatile Liquid Coating
- Stress Oscillations in Co-Solvent Nanoparticle–Polymer Suspensions Subjected to Constant Shear Rate
- Frequency Analysis of Pressure Fluctuation in Fluidized Bed Plenum