| 1 - 11 |
On the Validity of the Addition of Independent Contributions for Evaluating Heat-Transfer Rates in Gas-Fluidized Beds
Mazza GD, Bressa SP, Barreto GF |
| 13 - 23 |
Normal Solid Stress in Fluidized-Beds
Polashenski W, Chen JC |
| 25 - 28 |
Generalized Fractional Efficiency
Ontko JS |
| 29 - 38 |
Simulation of Particle-Fluid Turbulence Interaction in Sudden-Expansion Flows
Liao CM, Lin WY, Zhou LX |
| 39 - 46 |
Hydrodynamic Characteristics of a Magnetically Stabilized Air Fluidized-Bed of an Admixture of Magnetic and Nonmagnetic Particles
Wu WY, Navada A, Saxena SC |
| 47 - 51 |
Particle-to-Gas Heat Transfer in Particle Beds at Peclet Numbers PE-Less-Than-or-Equal-to-10
Molerus O |
| 53 - 57 |
Effect of an Acoustic Field on Bubbling in a Gas-Fluidized Bed
Levy EK, Shnitzer I, Masaki T, Salmento J |
| 59 - 70 |
Measurement of Powder Flow Constitutive Model Parameters Using a Cubical Triaxial Tester
Kamath S, Puri VM |
| 71 - 77 |
Gas-Discharge Modes at a Single Horizontal Nozzle in a 2-Dimensional Fluidized-Bed
Chyang CS, Chang CH, Chang JH |
| 79 - 88 |
Effect of Particle Density on Heat and Mass-Transfer During Fluidized-Bed Sublimation
Joulie R, Barkat M, Rios GM |
| 89 - 94 |
Use of Neural Networks in the Analysis of Particle-Size Distributions by Laser Diffraction
Nascimento CA, Guardani R, Giulietti M |
