| 1 - 3 |
Advances in solvent-free manufacturing of polymer membranes
Huang Q, Paul D, Seibig B |
| 5 - 7 |
New ways to produce porous polymeric membranes by carbon dioxide foaming
Krause B, van der Vegt NFA, Wessling M |
| 9 - 14 |
From ultrafiltration to nanofiltration hollow fiber membranes: a continuous UV-photografting process
Bequet S, Remigy JC, Rouch JC, Espenan JM, Clifton M, Aptel P |
| 15 - 20 |
Polysulfone with lower levels of cyclic dimer: Use of MALDI-TOF in the study of cyclic oligomers
Savariar S, Underwood GS, Dickinson EM, Schielke PJ, Hay AS |
| 21 - 26 |
Properties of multi-layer composite membranes on the base of polyethylene porous films
Elyashevich GK, Rosova EY, Kuryndin IS |
| 27 - 34 |
Production of asymmetric track membranes with a high permeability and separation selectivity
Kravets LI, Dmitriev SN, Sleptsov VV, Elinson VM |
| 35 - 39 |
A novel N,O-carboxymethyl amphoteric chitosan/poly(ethersulfone) composite MF membrane and its charged characteristics
Zhao ZP, Wang Z, Ye N, Wang SC |
| 41 - 46 |
Development and comparative study of different nanofiltration membranes for recovery of highly charged large ions
Chowdhury SR, ten Elshof JE, Benes NE, Keizer K |
| 47 - 52 |
Preparation of the silicalite membranes using a seeding technique under various hydrothermal conditions
Negishi H, Mizuno R, Yanagishita H, Kitamoto D, Ikegami T, Matsuda H, Haraya K, Sano T |
| 53 - 59 |
Preparation of polyacrylonitrile ultrafiltration membranes for wastewater treatment
Nouzaki K, Nagata M, Arai J, Idemoto Y, Koura N, Yanagishita H, Negishi H, Kitamoto D, Ikegami T, Haraya K |
| 61 - 66 |
Ru-doped phosphazene membrane materials used for catalytic hydrogenation
Hill AJ, Bastow TJ, Meakin P, Turney TW, Hoang M, Scalera N, Pertici P, Vitulli G |
| 67 - 72 |
Molecular modelling of polyimide membranes for gas separation
Heuchel M, Hofmann D |
| 73 - 78 |
Gas solubility in glassy polymers: predictions from non-equilibrium EoS
Doghieri F, Ghedini M, Quinzi M, Rethwisch D, Sarti GC |
| 79 - 83 |
Application of hydrocarbon-fluorocarbon interactions in membrane-based gas separations
Prabhakar R, Freeman B |
| 85 - 89 |
Dependence of hydrogen flux on the pore size and plating surface topology of asymmetric Pd-porous stainless steel membranes
Mardilovich IP, Engwall E, Ma YH |
| 91 - 92 |
Beyond state-of-the-art gas separation processes using ion-transport membranes
Bose AC, Richards RE, Sammells AF, Schwartz M |
| 93 - 101 |
Multicomponent transport across nonporous polymeric membranes
Ghoreyshi SAA, Farhadpour FA, Soltanieh M |
| 103 - 108 |
Relationship between polymer structure and gas transport properties in a series of fluorine-containing aromatic polyamide membranes for oxygen enrichment
Hu CC, Wang YC, Li CL, Lee KR, Chen YC, Lai JY |
| 109 - 113 |
Characterization of film transport properties for organic vapors using the time-lag method - interest and limitations
Morliere N, Corriou JP, Favre E, Roizard D |
| 115 - 120 |
Hydrogen permeation through palladium-coated amorphous Zr-M-Ni (M = Ti, Hf) alloy membranes
Hara S, Hatakeyama N, Itoh N, Kimura HM, Inoue A |
| 121 - 125 |
Effect of spinning conditions on the structure and the gas permeation properties of high flux polyethersulfone-polyimide blend hollow fibers
Kapantaidakis GC, Koops GH, Wessling M |
| 127 - 131 |
Future research and developments in the membrane field
Howell JA |
| 133 - 136 |
High-performance tangential flow filtration: a highly selective membrane separation process
Christy C, Adams G, Kuriyel R, Bolton G, Seilly A |
| 137 - 142 |
Membrane technology and supercritical fluids: chemical engineering for coupled processes
Sarrade S, Guizard C, Rios GM |
| 143 - 150 |
Recycling of spent process water in the food industry by an integrated process of biological treatment and membrane separation
Blocher C, Noronha M, Funfrocken L, Dorda J, Mavrov V, Janke HD, Chmiel H |
| 151 - 156 |
New options for achieving regulatory compliance with low-pressure membranes
Crozes GF, Hugaboom D, Seacord T, Roquebert V, Espenan JM |
| 157 - 162 |
Production of organic acids by bipolar electrodialysis: realizations and perspectives
Bailly M |
| 163 - 166 |
Enzyme textile for removal of urea with coupling process: enzymatic reaction and electrodialysis
Magne V, Amounas M, Innocent C, Dejean E, Seta P |
| 167 - 172 |
Preparation and analysis of oil-in-water emulsions with a narrow droplet size distribution using Shirasu-porous-glass (SPG) membranes
Vladisavljevic GT, Schubert H |
| 173 - 178 |
Membrane fouling in cross-flow ultrafiltration of mineral oil assisted by pressurised CO2
Rodriguez C, Sarrade S, Schrive L, Dresch-Bazile M, Paolucci D, Rios GM |
| 179 - 184 |
Concepts of industrial-scale diafiltration systems
Lipnizki F, Boelsmand J, Madsen RF |
| 185 - 191 |
The effects of intermittent permeate flow and crossflow on membrane coalescence of oil-in-water emulsions
Hong AC, Fane AG, Burford RP |
| 193 - 199 |
Design considerations for a solar-powered desalination system for remote communities in Australia
Richards BS, Schafer AI |
| 201 - 206 |
Mercury removal from aqueous solutions by complexation-ultrafiltration
Barron-Zambrano J, Laborie S, Viers PH, Rakib M, Durand G |
| 207 - 212 |
Removal of radionuclides by membrane permeation combined with complexation
Zakrzewska-Trznadel G, Harasimowicz M |
| 213 - 218 |
Recovery of metals by Donnan dialysis with ion exchange textiles
Berdous D, Akretche DE |
| 219 - 226 |
Engineering of membrane biosorption
Koltuniewicz A, Bezak K |
| 227 - 229 |
Recovery of chromique ions from aqueous effluents by liquid membrane in continuous mode
Fournier-Salaun MC, Vauclair C |
| 231 - 236 |
Removal of gold as Au(Tu)(2)(+) complex with a supported liquid membrane containing macrocyclic polyethers ligands as carriers
Gherrou A, Kerdjoudj H |
| 237 - 242 |
RO membrane removal of unreacted chromium from spent tanning effluent. A pilot-scale study, part 2
Hafez AI, El-Manharawy MS, Khedr MA |
| 243 - 248 |
Purification of water containing heavy metals by chelating-enhanced ultrafiltration
Kryvoruchko A, Yurlova L, Kornilovich B |
| 249 - 254 |
Separation of rare earth metals with a polymeric microcapsule membrane
Kondo K, Kamio E |
| 255 - 260 |
Removal of Ni(II) ions from wastewater by micellar-enhanced ultrafiltration
Yurlova L, Kryvoruchko A, Kornilovich B |
| 261 - 265 |
Ultrafiltration/complexation process for metal removal from pulp and paper industry wastewater
Tavares CR, Vieira M, Petrus JCC, Bortoletto EC, Ceravollo F |
| 267 - 272 |
D2EHPA based strontium removal from strongly alkaline nuclear waste
Kocherginsky NM, Zhang YK, Stucki JW |
| 273 - 277 |
Metallic species (Ag+ and CU2+ ions) transfer through a membrane-gel
Taoualit N, Hadj-Boussaad DE |
| 279 - 285 |
Recovery of heavy metals by means of ultrafiltration with water-soluble polymers: calculation of design parameters
Canizares P, Perez A, Camarillo R |
| 287 - 294 |
Performance of an ultra-low-pressure reverse osmosis membrane (ULPROM) for separating heavy metal: effects of interference parameters
Ozaki H, Sharma K, Saktaywin W |
| 295 - 299 |
Semi-continuous protein fractionating using affinity cross-flow filtration
Borneman Z, Zhang W, van den Boomgaard T, Smolders CA |
| 301 - 306 |
High-resolution plasma protein fractionation using ultrafiltration
Wan YH, Ghosh R, Cui ZF |
| 307 - 311 |
Milk protein concentration by ultrafiltration with rotating disk modules
Ding LH, Al-Akoum O, Abraham A, Jaffrin MY |
| 313 - 318 |
Concentration and desalination of fish gelatin by ultrafiltration and continuous diafiltration processes
Simon A, Vandanjon L, Levesque G, Bourseau P |
| 319 - 324 |
Mechanisms of flux decline during ultrafiltration of dairy products and influence of pH on flux rates of whey and buttermilk
Rao HGR |
| 325 - 330 |
Casein micelles separation from skimmed milk using a VSEP dynamic filtration module
Al-Akoum O, Ding LH, Chotard-Ghodsnia R, Jaffrin MY, Gesan-Guiziou G |
| 331 - 334 |
Native protein recovery from potato fruit juice by ultrafiltration
Zwijnenberg HJ, Kemperman AJB, Boerrigter ME, Lotz M, Dijksterhuis JF, Poulsen PE, Koops GH |
| 335 - 340 |
On performance measures of reverse osmosis plants
Hajeeh M, Al-Othman A, El-Sayed E, Al-Fuliaj S |
| 341 - 345 |
Modelling of a low-pressure reverse osmosis system with concentrate recirculation to obtain high recovery levels
Gozalvez JM, Lora J, Mendoza JA, Sancho M |
| 347 - 352 |
Comparison studies of feedwater pre-treatment in a reverse osmosis pilot plant
Lopez-Ramirez JA, Marquez DS, Alonso JMQ |
| 353 - 360 |
Comparison of MF/UF pretreatment with conventional filtration prior to RO membranes for surface seawater desalination
Brehant A, Bonnelye V, Perez M |
| 361 - 365 |
Application of energy efficient reverse osmosis system for seawater desalination
Kim SH, Kim GT, Yim SK, Choi KH, Yoon CH, Choo KH, Choi SJ |
| 367 - 372 |
Effect of feed temperature on permeate flux and mass transfer coefficient in spiral-wound reverse osmosis systems
Goosen MFA, Sablani SS, Al-Maskari SS, Al-Belushi RH, Wilf M |
| 373 - 378 |
Effect of several inorganic species on silica fouling in RO membranes
Sahachaiyunta P, Koo T, Sheikholeslami R |
| 379 - 385 |
Recovery by nanofiltration and reverse osmosis of marine flavours from seafood cooking waters
Vandanjon L, Cros S, Jaouen P, Quemeneur F, Bourseau P |
| 387 - 392 |
Permeability of electrolytes through a flat RO membrane in a direct osmosis study
Ghiu SMS, Carnahan RP, Barger M |
| 393 - 398 |
Application of the system which combines coagulation, activated sludge and reverse osmosis to the treatment of the wastewater produced by the meat industry
Bohdziewicz J, Sroka E, Lobos E |
| 399 - 403 |
Comparing kinetic design of propene partial oxidation between a Cs-Ag and a Re-Ag immobilized membrane reactors
Kobayashi M, Togawa J, Kanno T, Horiuchi J, Tada K |
| 405 - 409 |
Investigations and simulation of a membrane bioreactor system for application in remote areas
Guttau S, Gunther R, Hapke J |
| 411 - 416 |
Polymeric and ceramic membranes in three-phase catalytic membrane reactors for the hydrogenation of methylenecyclohexane
Bottino A, Capannelli G, Comite A, Di Felice R |
| 417 - 418 |
Catalytic membranes: alkene dimerisation by means of acidic porous thin-film composite membranes
Randjelovic I, Bengtson G, Fritsch D |
| 419 - 424 |
Hydrogenation of cyclohexene with perfluorinated cation- and anion-exchange membranes supported platinum
Byun H, Lee T |
| 425 - 426 |
Oxidation of lower alkanes over MoO3-V2O5 supported on YSZ-aided membrane reactor
Takehira K, Shishido T, Sakai N, Shimomura J, Hamakawa S, Kajioka H |
| 427 - 432 |
Catalytic membrane preparation for enzymatic hydrolysis reactions carried out in the membrane phase contactor
Trusek-Holownia A, Noworyta A |
| 433 - 435 |
The new catalytic membranes with low sized phosphorus oxide structures on a surface
Malygin AA, Ermilova MM, Gryaznov VM, Orekhova NV, Malkov AA |
