| 1 - 12 |
Novel spacers for mass transfer enhancement in membrane separations
Li F, Meindersma W, de Haan AB, Reith T |
| 13 - 22 |
Study and characterization of the hysteresis behavior of polyimide membranes in the thermal cycle process of pervaporation separation
Guo WF, Chung TS |
| 23 - 31 |
Proton-conducting membranes with high selectivity from phosphotungstic acid-doped poly(vinyl alcohol) for DMFC applications
Lin CW, Thangamuthu R, Yang CJ |
| 33 - 42 |
New proton conducting polymer membranes based on EPDM and branched HPBS
Bashir H, Acosta JL, Linares A |
| 43 - 48 |
Pervaporative separation of organic mixtures using dinitrophenyl group-containing cellulose acetate membrane
Kusumocahyo SP, Ichikawa T, Shinbo T, Iwatsubo T, Kameda M, Ohi K, Yoshimi Y, Kanamori T |
| 49 - 56 |
Free standing membranes made of biocompatible polyelectrolytes using the layer by layer method
Lavalle P, Boulmedais F, Ball V, Mutterer J, Schaaf P, Voegel JC |
| 57 - 66 |
Water vapour separation from permanent gases by a zeolite-4A membrane
Zhu W, Gora L, van den Berg AWC, Kapteijn F, Jansen JC, Moulijn JA |
| 67 - 79 |
A suspension flow model for hydrodynamics and concentration polarisation in crossflow microfiltration
Kronkamp J, Bastiaanse A, Swarts J, Brans G, van der Sman RGM, Boom RM |
| 81 - 87 |
A simplified model for trace organics removal by continuous flow PAC adsorption/submerged membrane processes
Chang S, Waite TD, Fane AG |
| 89 - 102 |
Fouling of a nanofiltration membrane by a beta-lactoglobulin tryptic hydrolysate: impact on the membrane sieving and electrostatic properties
Lapointe JF, Gauthier SF, Pouliot Y, Bouchard C |
| 103 - 115 |
Mathematical modeling and simulation of the multiple solutes system for nanofiltration process
Ahmad AL, Chong MF, Bhatia S |
| 117 - 138 |
Analysis of dual-mode model parameters for gas sorption in glassy polymers
Kanehashi S, Nagai K |
| 139 - 147 |
Water and hexane permeate flux through organic and ceramic membranes -Effect of pretreatment on hexane permeate flux
Garcia A, Alvarez S, Riera F, Alvarez R, Coca J |
| 149 - 163 |
Effect of polymer nature and hydrodynamic conditions on a process of polymer enhanced ultrafiltration
Canizares P, de Lucas A, Perez A, Camarillo R |
| 165 - 173 |
Hydrogen permeation measurements of partially internally oxidized Pd-Al alloys in the presence and absence of CO
Wang D, Flanagan TB, Shanahan KL |
| 175 - 181 |
Effect of the upstream pressure on gas transport in poly (ether-imide) films
Lopez-Gonzalez MM, Compan V, Saiz E, Riande E, Guzman J |
| 183 - 189 |
Performance of gas separation membranes made from sulfonated brominated high molecular weight poly(2,4-dimethyl-1,6-phenyIene oxide)
Hamad F, Matsuura T |
| 191 - 198 |
Observation of the solute transport in the permeation through hydrogel membranes by using FTIR-microscopy
Cheng ML, Sun YM |
| 199 - 208 |
Towards ultrathin polyaniline films for gas separation
Illing G, Hellgardt K, Schonert M, Wakeman RJ, Jungbauer A |
| 209 - 215 |
Single component gas transport through 10 nm pores: Experimental data and hydrodynamic prediction
Roy S, Cooper SM, Meyyappan M, Cruden BA |
| 217 - 232 |
High rate sulfate reduction in a submerged anaerobic membrane bioreactor (SAMBaR) at high salinity
Vallero MVG, Lettinga G, Lens PNL |
| 233 - 242 |
Propane dehydrogenation using catalytic membrane
Bobrov VS, Digurov NG, Skudin VV |
| 243 - 249 |
Mixed gas hydrogen sulfide permeability and separation using supported polyphosphazene membranes
Orme CJ, Stewart FF |
