| 1 - 9 |
Chemical process opportunities for vibrated powders 1. In the laboratory
Squires AM |
| 10 - 19 |
Chemical process opportunities for vibrated powders 2. In the field
Squires AM |
| 20 - 33 |
Determination of bubble diameter and axial velocity for a polyethylene fluidized bed using X-ray fluoroscopy
Hulme I, Kantzas A |
| 34 - 48 |
Minimum fluidation velocity correlations in particulate systems
Coltters R, Rivas AL |
| 49 - 58 |
LES of the turbulent coherent structures and particle dispersion in the gas-solid wake flows
Luo K, Fan JR, Jin HH, Cen KF |
| 59 - 63 |
Preparation of polyaniline/nano-Zno composites via a novel Pickering emulsion route
He YJ |
| 64 - 78 |
Prediction of aerodynamic diameter of particles with rough surfaces
Tang P, Chan HK, Raper JA |
| 79 - 85 |
Effect of temperature and humidity on vegetable grade magnesium stearate
Koivisto M, Jalonen H, Lehto VP |
| 86 - 93 |
A simple model for prediction of solid collection efficiency of a gas-solid separator
Zhang R, Basu P |
| 94 - 112 |
Slurry rheology in wet ultrafine grinding of industrial minerals: a review
He MZ, Wang YM, Forssberg E |
| 113 - 116 |
Synthesis and size control of NiO nanoparticles by water-in-oil microemulsion
Han DY, Yang HY, Shen CB, Zhou X, Wang FH |
| 117 - 125 |
Measurements and prediction of terminal velocity of solid spheres falling through stagnant pseudoplastic liquids
Kelessidis VC, Mpandelis G |
| 126 - 136 |
Hydrodynamics of the reactor section in fluid cokers
Song XQ, Bi HT, Lim CJ, Grace JR, Chan E, Knapper B, McKnight C |
