| 183 - 190 |
Quantitative estimation of solids holdups at dense and dilute regions of circulating fluidized beds
Bai D, Kato K |
| 191 - 204 |
Solid circulation in a compartmented gas fluidized bed
Bhattacharya B, Sathiyamoorthy D, Rao VG, Mahajan SP |
| 205 - 210 |
Preparation of nanometer titanium oxide with n-butanol supercritical drying
Hu ZS, Dong JX, Chen GX |
| 211 - 228 |
A theoretical investigation of gas-solid flow exiting a fluidized bed into a standpipe
Tsinontides SC |
| 229 - 239 |
The dynamics of large particles in a four-compartment interconnected fluidized bed
Snieders FF, Hoffmann AC, Cheesman D, Yates JG, Stein M, Seville JPK |
| 240 - 248 |
Modelling to understand porosity and specific surface area changes during tabletting
Masteau JC, Thomas G |
| 249 - 256 |
A visual kinematic model of flowing foams incorporating coalescence
Neethling SJ, Cilliers JJ |
| 257 - 265 |
Evaluation of the computer controlled dynamic yield locus tester
Duffy SP, Puri VM |
| 266 - 278 |
Study on the flow of fine powders from hoppers connected to a moving-bed standpipe with negative pressure gradient
Jing S, Li HZ |
| 279 - 287 |
Preparation, viscosity and damping of functional fluids that respond to both magnetic and electric fields
Fujita T, Jeyadevan B, Yamaguchi K, Nishiyama H |
| 288 - 295 |
Drag on non-spherical particles: an evaluation of available methods
Chhabra RP, Agarwal L, Sinha NK |
| 296 - 296 |
Segregation by size difference in gas fluidized beds (vol 98, pg 139, 1998)
Wu SY, Baeyens J |
