Drying Characteristics of Porous Material in a Fluidized Bed of Fluidizing Particles with Superheated Steam
スポンサーリンク
概要
- 論文の詳細を見る
The drying characteristics of porous materials immersed in the fluidized bed of fluidizing particles with superheated steam were examined. A B-1 brick ball, in which the gas diffusion was governed by Knudsen diffusion, was used as the drying sample and the glass beads (0.12 mm in diameter) were used as the fluidizing particles. N2 gas was also used as the drying gas for the comparison. N2 gas was the substitute of air. The temperature of the fluidized bed and the mass velocity of drying gas were changed, respectively. The theoretical analysis including the convective gas transfer in the sample and condensation of the steam in the sample was also preformed.There is a period when the temperature of the sample center is almost constant in the fluidized bed drying with superheated steam and with hot air. The temperature of the sample center in superheated steam is higher than that in hot air. In the case of superheated steam, the temperature during the period when the temperature of the sample center is almost constant is equal to the boiling point of water. When the mass transfer resistance in a sample is large, the temperature in the sample increases because of the increment of the pressure in the sample. This phenomenon was confirmed by the calculated pressure in the sample. The effect of the bed temperature on the drying characteristics is significant, while that of the mass velocity of drying gas is very slight.
- 社団法人 化学工学会の論文
- 2003-06-01
著者
-
Sakurai Kazunori
Department Of Materials Science And Chemical Engineering Shizuoka University
-
Tatemoto Yuji
Department Of Materials Science And Chemical Engineering Shizuoka University
-
Noda Katsuji
Department Of Materials Science And Chemical Engineering Shizuoka University
-
Noda Katsuji
Department Of Citriculture Okitsu National Institute Of Fruit Tree Science:(present)center For Envir
-
MAWATARI Yoshihide
Department of Applied Chemistry, Kyushu Institute of Technology
-
KOMATSU NOBUYUKI
Terada Seisakusho Co., Ltd.
-
Mawatari Y
Department Of Materials Science And Chemical Engineering Shizuoka University
-
Mawatari Yoshihide
Department Of Applied Chemistry Kyushu Institute Of Technology
-
Sugita Keiichi
Department Of Materials Science And Chemical Engineering Shizuoka University
-
Noda Katsuji
Department of Chemical Engineering, Shizuoka University
関連論文
- Emission of N_2O and CO_2 and Uptake of CH_4 in Soil from a Satsuma Mandarin Orchard under Mulching Cultivation in Central Japan
- TRANSPORT PROPERTIES OF ANION-EXCHANGE MEMBRANE PREPARED FOR PRODUCING HYDROGEN PEROXIDE IN ACIDIC SOLUTIONS BY ELECTRODIALYSIS OF PEROXIDE IONS
- Development of a Rectangular Airlift Sonoreactor Combined with Sparging Ozone
- Effect of Packed Structure on the Liquid Flow Behavior in the Packed Bed Biofilter
- 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
- Separation of Solid Particles by Density Difference in a Liquid-Solid Fluidized Bed
- Minimum Bubbling Velocity and Homogeneous Fluidization Region under Reduced Pressure for Group-A Powders
- Drying Characteristics of Porous Material in a Fluidized Bed of Fluidizing Particles with Superheated Steam
- Effect of Motion of Drying Materials in Fluidized Bed on Drying Characteristics
- Effect of CaO Addition on Rotted Material
- Rotting Prevention by CaO in RDF Production
- Drying Characteristics of Porous Materials in Superheated Steam Fluidized Bed under Reduced Pressure
- Drying Characteristics of Porous Materials in a Fluidized Bed of Hygroscopic Porous Particles
- Bubbling Characteristics under Vertical Vibration in a Two-Dimensional Fluidized Bed
- The Mechanism of a Temperature Decrement of Porous Materials Immersed in a Fluidized Bed in Drying
- Characteristics of vibro-fluidization for fine powder under reduced pressure
- Prediction of Agglomerate Size for Fine Particles in a Vibro-fluidized Bed
- Comparison of three vibrational modes (twist, vertical and horizontal) for fluidization of fine particles
- Behavior of magnetic Fe_3O_4 nano-particles in magnetically assisted gas-fluidized beds
- EFFECTS OF OPERATIONAL CONDITIONS ON DRYING CHARACTERISTICS IN SUPERHEATED STEAM FLUIDIZED BED DRYING
- 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
- Limestone neutralization of acid solutions containing dissolved iron.
- VAPOR-LIQUID EQUILIBRIA FOR THE BENZENE-CYCLOHEXENE-AMMONIA SYSTEM
- Correlation and prediction of the viscosity of liquid mixtures.