| 1 - 10 |
Polymeric membranes preparation by wet phase separation: mechanisms and elementary processes
Stropnik C, Kaiser V |
| 11 - 16 |
Structure formation of poly (ether-imide) films using non-solvent vapor induced phase separation: relationship between mass transfer and relative humidity
Menut P, Pochat-Bohatier C, Deratani A, Dupuy C, Guilbert S |
| 17 - 23 |
Macrovoid growth during polymer membrane casting
Khare VP, Greenberg AR, Zartman J, Krantz WB, Todd P |
| 25 - 29 |
Microporous PVDF membrane formation by immersion precipitation from water/TEP/PVDF system
Lin DJ, Chang CL, Chen TC, Cheng LP |
| 31 - 37 |
Effect of compatible nucleation seeds on the morphology of porous Nylon 6 membrane
Lin DJ, Cheng LP, Lin SP |
| 39 - 45 |
The effect of sulfonated poly(ether ether ketone) additives on membrane formation and performance
Bowen WR, Doneva TA, Yin HB |
| 47 - 52 |
New membranes from PEEK-WC and its derivatives
Gordano A, Clarizia G, Torchia A, Trotta F, Drioli E |
| 53 - 59 |
Preparation and morphological characterization of polyurethane/polyethersulfone composite membranes
Duarte LT, Habert AC, Borges CP |
| 61 - 63 |
Membranes synthesis study for colour removal of a textile effluent
Ribeiro RM, Bergamasco R, Gimenes ML |
| 65 - 68 |
Nanofiltration of nitric acidic solutions from Picture Tube production
Jakobs D, Baumgarten G |
| 69 - 74 |
Recycling of industrial waste water by using a two-step nanofiltration process for the removal of colour
Frank MJW, Westerink JB, Schokker A |
| 75 - 80 |
Direct capillary nanofiltration - a new high-grade purification concept
Futselaar H, Schonewille H, van der Meer W |
| 81 - 86 |
Effect of temperature and membrane pre-treatment by pressure on the filtration properties of nanofiltration membranes
Manttari M, Pihlajamaki A, Kaipainen E, Nystrom M |
| 87 - 95 |
Derivation of adsorption parameters for nanofiltration membranes using a 1-pK Basic Stern model
de Lint WBS, Benes NE, Higler AR, Verweij H |
| 97 - 102 |
Air sparging with flat sheet nanofiltration: a link between wall shear stresses and flux enhancement
Ducom G, Puech FP, Cabassud C |
| 103 - 108 |
The influence of physico-chemistry on the retention of chromium ions during nanofiltration
Taleb-Ahmed M, Taha S, Maachi R, Dorange G |
| 109 - 114 |
Effects of organic and inorganic matter on pesticide rejection by nanofiltration
Boussahel R, Montiel A, Baudu M |
| 115 - 122 |
Experimental investigation on separation performance of nanofiltration membranes for inorganic electrolyte solutions
Wang XL, Wang WN, Wang DX |
| 123 - 128 |
Shear-induced hydrodynamic diffusion model for cross-flow microfiltration: role of the particle volume fraction
Mondor M, Moresoli C |
| 129 - 131 |
Effective hydraulic resistance of the first cake layers at the membrane surface in microfiltration
Dufreche J, Prat M, Schmitz P |
| 133 - 138 |
Calculation of flow and solute deposition through three-dimensional reconstructed model of microporous membranes
Charcosset C, Yousefian F, Thovert JF, Adler PM |
| 139 - 146 |
Modelling of filtration: from the polarised layer to deposit formation and compaction
Bacchin P, Meireles M, Aimar P |
| 147 - 152 |
Analysis of mass transfer in hollow-fiber membranes
Nagy E, Hadik P |
| 153 - 157 |
Decline of permeate flux for ultrafiltration along membrane tubes
Yeh HM |
| 159 - 163 |
Optimum process designs for ultrafiltration and crossflow microfiltration systems
Cross RA |
| 165 - 172 |
Membrane emulsification modelling: how can we get from characterisation to design?
Rayner M, Tragardh G |
| 173 - 177 |
Membrane crystallization of macromolecular solutions
Curcio E, Di Profio G, Drioli E |
| 179 - 182 |
Hydrodynamic analysis of upward slug flow in tubular membranes
Taha T, Cui ZF |
| 183 - 186 |
Computational fluid dynamics modelling of flow and permeation for pressure-driven membrane processes
Wiley DE, Fletcher DF |
| 187 - 192 |
Computer simulation and optimization of pervaporation process
Han BB, Li JD, Chen CX, Wickramasinghe R |
| 193 - 199 |
Numerical and experimental study of mass transfer in lysozyme ultrafiltration
Magueijo V, de Pinho MN, Geraldes V |
| 201 - 206 |
Modelling the microfiltration of lactic acid fermentation broths and comparison of operating modes
Carrere H, Blaszkowa F, de Balmam HR |
| 207 - 215 |
Efficient design and optimisation of two-stage NF processes by simplified process simulation
Noronha M, Mavrov V, Chmiel H |
| 217 - 222 |
Monitoring and control of TMP and feed flow rate pulsatile operations during ultrafiltration in a membrane module
Curcio S, Calabro V, Iorio G |
| 223 - 231 |
Neural networks: a tool to improve UF plant productivity
Cabassud M, Delgrange-Vincent N, Cabassud C, Durand-Bourlier L, Laine JM |
| 233 - 235 |
Use of a predictive model of HD/HDF based on a cascade of communicating CSTs to design modules with enhanced HMW solute clearance
Catapano G, Legallais C, von Harten B, Baurmeister U |
| 237 - 245 |
Effect of the removal of DOMs on the performance of a coagulation-UF membrane system for drinking water production
Park PK, Lee CH, Choi SJ, Choo KH, Kim SH, Yoon CH |
| 247 - 255 |
Fouling characteristics of wastewater effluent organic matter (EfOM) isolates on NF and UF membranes
Jarusutthirak C, Amy G, Croue JP |
| 257 - 264 |
Rejection characteristics of organic and inorganic pollutants by ultra low-pressure nanofiltration of surface water for drinking water treatment
Thanuttamavong M, Yamamoto K, Oh JI, Choo KH, Choi SJ |
| 265 - 272 |
Ultrafiltration enhanced by coagulation in an immersed membrane system
Choksuchart P, Heran M, Grasmick A |
| 273 - 280 |
Comparison of three antiscalants, as applied to the treatment of water from the River Oise
Plottu-Pecheux A, Houssais B, Democrate C, Gatel D, Parron C, Cavard J |
| 281 - 286 |
Effects of natural organic matter on atrazine rejection by pressure driven membrane processes
Majewska-Nowak K, Kabsch-Korbutowicz M, Dodz M |
| 287 - 291 |
Defluoridation of groundwater by a hybrid process combining adsorption and Donnan dialysis
Garmes H, Persin F, Sandeaux J, Pourcelly G, Mountadar M |
| 293 - 298 |
Arsenic removal from drinking water by flocculation and microfiltration
Han BB, Runnells T, Zimbron J, Wickramasinghe R |
| 299 - 304 |
The role of membrane morphology on ultrafiltration for natural organic matter removal
Costa AR, de Pinho MN |
| 305 - 308 |
Design and construction of a water potabilization membrane facility and its application to the third world countries. Preliminary tests
Arnal JMA, Fernandez MS, Martin GV, Garcia JL, Zafrilla JMG, Candela JI, Peiro IF, Martinez IT |
| 309 - 313 |
Clarification of a highly turbid karstic water by microfiltration
Wittmann E, Tazi-Pain A, Chanussot T, Patterson A, Niay R, Gaid A, Canto F |
| 315 - 319 |
Membrane processes used for potable water quality improvement
Karakulski K, Gryta M, Morawski A |
| 321 - 327 |
Application of membrane techniques in a water softening process
Bodzek M, Koter S, Wesolowska K |
| 329 - 332 |
High demineralization of drinking water by electrodialysis without scaling on the membranes
Shaposhnik VA, Zubets NN, Strygina IP, Mill BE |
| 333 - 337 |
Humic substances removal from drinking water by membrane filtration
Domany Z, Galambos I, Vatai G, Bekassy-Molnar E |
| 339 - 345 |
Development of facilitated transport membranes for the separation of olefins from gas streams
Muller J, Peinemann KV, Muller J |
| 347 - 351 |
Transport properties of PA12-PTMO/AgBF4 solid polymer electrolyte membranes for olefin/paraffin separation
Morisato A, He ZJ, Pinnau I, Merkel TC |
| 353 - 357 |
Preparation and characterization of gas separation hollow fiber membranes based on polyethersulfone-polyimide miscible blends
Kapantaidakis GC, Koops GH, Wessling M |
| 359 - 364 |
Propylene/propane separation with copolyimides containing benzo-15-crown-5-ether to incorporate silver ions
Hess S, Scharfenberger G, Staudt-Bickel C, Lichtenthaler RN |
| 365 - 370 |
Effect of metal cations on the gas separation performance of sulfonated poly (phenylene oxide) membranes
Hamad F, Chowdhury G, Matsuura T |
| 371 - 374 |
Sulfonated copolyimides: influence of structural parameters on gas separation properties
Piroux F, Espuche E, Mercier R, Pineri M |
| 375 - 377 |
Control of gas permeability for cellulose acetate membrane by microwave irradiation
Nakai Y, Tsujita Y, Yoshimizu H |
| 379 - 383 |
Gas permeability of polypropylene oxide/polybutadiene bi-soft segment urethane/urea membranes
Queiroz DP, Pinho MN |
| 385 - 388 |
Selective permeation of CO2 through new facilitated transport membranes
Zhang Y, Wang Z, Wang SC |
| 389 - 392 |
Synthesis and characterization of metal-containing sulfonated polyimide membranes and their gas separation properties
Kim YK, Park HB, Lee YM |
| 393 - 395 |
Monte Carlo simulations of polymer conformations at the bulk/membrane interface
Hermsen GF, de Geeter BA, van der Vegt NFA, Wessling M |
