| 221 - 222 |
Special issue - Process developments in membrane contactors and reactors
Nystrom M, Rios G |
| 223 - 233 |
State of the art and recent progresses in membrane contactors
Drioli E, Curcio E, Di Profio G |
| 234 - 246 |
Membrane contactors in industrial applications
Klaassen R, Feron PHM, Jansen AE |
| 247 - 255 |
Use of a surfactant liquid membrane contactor for zinc uptake from an acid aqueous effluent
Valenzuela F, Auspont J, Basualto C, Tapia C, Sapag J |
| 256 - 267 |
Designing microporous hollow fibre blood oxygenators
Wickramasinghe SR, Han B |
| 268 - 275 |
Electrophoretic membrane contactors
Galier S, Roux-de Balmann H |
| 276 - 284 |
Process improvement by application of membrane bioreactors
Drews A, Kraume M |
| 285 - 294 |
Modelling the enantioselective hydrolysis of a meso-diester using pig liver esterase in a two-phase hollow fibre reactor
Sousa HA, Afonso CAM, Mota JPB, Crespo JG |
| 295 - 301 |
Use of zeolite membrane reactors for the combustion of VOCs present in air at low concentrations
Aguado S, Coronas J, Santamaria J |
| 302 - 308 |
biomolecule applications for membrane-based phase contacting systems -Distribution, separation and reaction - A first state of the art
Paolucci-Jeanjean D, Belleville MP, Rios GM |
| 309 - 316 |
Application of organic solvent nanofiltration to separation of ionic liquids and products from ionic liquid mediated reactions
Han S, Wong HT, Livingston AG |
| 317 - 325 |
Shell-side dispersion coefficients in a rectangular cross-flow hollow fibre membrane module
Dindore VY, Cents AHG, Brilman DWF, Versteeg GF |
