| 1111 - 1118 |
Effects of cross-flow velocity, capillary pressure and oil viscosity on oil-in-water drop formation from a capillary
Timgren A, Tragardh G, Tragardh C |
| 1119 - 1135 |
CFD simulation of hydrodynamics of gas-liquid-solid fluidised bed reactor
Panneerselvam R, Savithri S, Surender GD |
| 1136 - 1142 |
Very-viscous-oil/water/air flow through horizontal pipes: Pressure drop measurement and prediction
Poesio P, Strazza D, Sotgia G |
| 1143 - 1153 |
Solid-liquid mass transfer analysis in a multi-phase tank reactor containing submerged coated inclined-plates: A computational fluid dynamics approach
Trujillo FJ, Safinski T, Adesina AA |
| 1154 - 1159 |
Analytical expressions for predicting permeability of bimodal fibrous porous media
Tafreshi HV, Rahman MSA, Jaganathan S, Wang Q, Pourdeyhimi B |
| 1160 - 1166 |
Evidence of liquid water formation during methane hydrates dissociation below the ice point
Melnikov VP, Nesterov AN, Reshetnikov AM, Zavodovsky AG |
| 1167 - 1177 |
Adsorptive reactor technology for VOC abatement
Kolade MA, Kogelbauer A, Alpay E |
| 1178 - 1184 |
Fixed-bed adsorption with nonplug flow: Perturbation solution for constant pattern behavior
Moate JR, Levan MD |
| 1185 - 1194 |
Absorption of carbon dioxide into aqueous solutions of piperazine activated 2-amino-2-methyl-1-propanol
Samanta A, Bandyopadhyay SS |
| 1195 - 1211 |
Kinetic theory based computation of PSRI riser: Part I-Estimate of mass transfer coefficient
Chalermsinsuwan B, Piumsomboon P, Gidaspow D |
| 1212 - 1222 |
Kinetic theory based computation of PSRI riser: Part II-Computation of mass transfer coefficient with chemical reaction
Chalermsinsuwan B, Piumsomboon P, Gidaspow D |
| 1223 - 1231 |
Mixing efficiency of a multilamination micromixer with consecutive recirculation zones
Lee J, Kwon S |
| 1232 - 1248 |
Numerical investigation of gas-solid heat transfer in rotating fluidized beds in a static geometry
de Broqueville A, De Wilde J |
| 1249 - 1259 |
Experimental study on drop formation in liquid-liquid fluidized bed
Peng ZB, Yuan ZL, Wu X, Cai J, Fan FX, Tie L, Fan G, Pan C, Liang KF |
| 1260 - 1266 |
Accurate void fraction calculation for three-dimensional discrete particle model on unstructured mesh
Wu CL, Zhan JM, Li YS, Lam KS, Berrouk AS |
| 1267 - 1284 |
Trickle flow hydrodynamic multiplicity: Experimental observations and pore-scale capillary mechanism
Van der Merwe W, Nicol W |
| 1285 - 1292 |
Pressure drop across vortex diodes: Experiments and design guidelines
Kulkarni AA, Ranade VV, Rajeev R, Koganti SB |
| 1293 - 1317 |
Batch top-spray fluid bed coating: Scale-up insight using dynamic heat-and mass-transfer modelling
Hede PD, Bach P, Jensen AD |
| 1318 - 1325 |
Fractal diffusion model used for diffusion in porous material within limited volume of stiff container
Wang S, Ma ZF, Yao HQ |
| 1326 - 1335 |
Liquid mixing in gas-liquid two-phase flow by meandering microchannels
Fries DM, von Rohr PR |
| 1336 - 1357 |
Design of a gas phase simulated moving bed for propane/propylene separation
Gomes PS, Lamia N, Rodrigues AE |
| 1358 - 1361 |
Nanoparticle stability: Processing pathways for solvent removal
Kumar V, Prud'homme RK |
| 1362 - 1371 |
On the modelling of droplet-film interaction considering entrainment, deposition and breakage processes
Patruno LE, Dorao CA, Svendsen HF, Jakobsen HA |
