| 1 - 9 |
Membrane filtration of textile dyehouse wastewater for technological water reuse
Sojka-Ledakowicz J, Koprowski T, Machnowski W, Knudsen HH |
| 11 - 19 |
Tailoring an economical membrane process for internal purification in the paper industry
Nuortila-Jokinen J, Kuparinen A, Nystrom M |
| 21 - 29 |
Purification of alkaline cleaning solutions from the dairy industry using membrane separation technology
Tragardh G, Johansson D |
| 31 - 32 |
Application of a membrane process to close the water circuit within a Vulcan-fibre factory
Muller H, Baumgarten G, Wortel A, Offermann U |
| 33 - 45 |
Advanced concept of large seawater desalination systems for Israel
Glueckstern P, Priel M |
| 47 - 55 |
New membrane developments expanding the horizon for the application of reverse osmosis technology
Gerard R, Hachisuka H, Hirose M |
| 57 - 64 |
Only two membrane modules per pressure vessel? Hydraulic optimization of spiral-wound membrane filtration plants
van der Meer WGJ, Riemersma M, van Dijk JC |
| 65 - 72 |
Monitoring the integrity of capillary membranes by particle counters
Panglisch S, Deinert U, Dautzenberg W, Kiepke O, Gimbel R |
| 73 - 77 |
Acoustic sensor: a novel technique for low pressure membrane integrity monitoring
Laine JM, Glucina K, Chamant M, Simonie P |
| 79 - 83 |
A comparison of ultrafiltration on various river waters
Green JH, Tylla M |
| 85 - 91 |
Removal of particles, bacteria and parasites with ultrafiltration for drinking water treatment
Hagen K |
| 93 - 102 |
Pilot scale microfiltration at Manitowoc
Kothari N, Taylor JS |
| 103 - 111 |
A low pressure ultrafiltration membrane system for potable water supply to developing communities in South Africa
Pryor MJ, Jacobs EP, Botes JP, Pillay VL |
| 113 - 125 |
Enhanced surface water treatment by ultrafiltration
Hofman JAMH, Beumer MM, Baars ET, van der Hoek JP, Koppers HMM |
| 127 - 131 |
Application of membrane technology for drinking water
Ma WT, Sun ZC, Wang ZX, Feng YB, Wang TC, Chan US, Miu CH, Zhu SC |
| 133 - 142 |
Integration of ultrafiltration to conventional drinking water treatment for a better particle removal - efficiency and costs?
Lipp P, Baldauf G, Schick R, Elsenhans K, Stabel HH |
| 143 - 150 |
Monitoring the integrity of reverse osmosis membranes
Adham S, Gagliardo P, Smith D, Ross D, Gramith K, Trussell R |
| 151 - 158 |
Development of a tank-submerged type membrane filtration system
Suda K, Shibuya S, Itoh Y, Kohno T |
| 159 - 168 |
Modelling concentration polarization phenomena for membrane channel with cylindrical geometry in an ultrafiltration process
Agashichev SP |
| 169 - 176 |
Application of nanofiltration for recycling of paper regeneration wastewater and characterization of filtration resistance
Ahn KH, Cha HY, Yeom IT, Song KG |
| 177 - 183 |
Treatment of whey effluents from dairy industries by nanofiltration membranes
Alkhatim HS, Alcaina MI, Soriano E, Iborra MI, Lora J, Arnal J |
| 185 - 185 |
Concentration of radioactive waste solutions of iodine (I-125) from radio immune analysis (RIA) using membrane techniques
Arnal JM, Campayo E, Garcia JL, Clar II, Miranda MA, Fernandez MS |
| 187 - 188 |
Water saving in a two stage diafiltration for the production of whey protein concentrates
Barba D, Beolchini F, Veglio F |
| 189 - 189 |
Reducing fouling of RO membranes by redox-initiated graft polymerization
Belfer S, Purinson Y, Kedem O |
| 191 - 197 |
Comparison of ceramic and capillary membranes in the treatment of natural water by means of ultrafiltration and microfiltration
Bodzek M, Konieczny K |
| 199 - 204 |
Increasing conversion in membrane filtration systems using a desupersaturation unit to prevent scaling
Bremere I, Kennedy MD, Johnson A, van Emmerik R, Witkamp GJ, Schippers JC |
| 205 - 206 |
RO treatment of waste waters from dairy industry
Del Re G, Di Giacomo G, Aloisio L, Terreri M |
| 207 - 207 |
Performance assessment of seawater reverse osmosis membranes
Ebrahim S, Abdel-Jawad M, Al-Saffar A, Al-Tabtabaie M |
| 209 - 211 |
An example of water conservation and wastewater
Faber J, van Oort PPJM, Reigersman A |
| 213 - 216 |
Membrane processes for water reuse in the food industry
Fahnrich A, Mavrov V, Chmiel H |
| 217 - 224 |
System design for large-scale ultrafiltration applications
Futselaar H, Weijenberg DC |
| 225 - 227 |
Analysis and behaviour of chloride solutions in flat reverse osmosis membranes
Gotor AG, Bachir S, Argudo C |
| 229 - 234 |
Evidence for membrane fouling by specific TOC constituents
Huber SA |
| 235 - 239 |
Removal of natural radionuclides from drinking water by point of entry reverse osmosis
Huikuri P, Salonen L, Raff O |
| 241 - 241 |
Possibilities for the rational use of energy from thermal waters
Jankovic Z |
| 243 - 249 |
Operational experience with a new fouling resistant reverse osmosis membrane
Jenkins M, Tanner MB |
| 251 - 258 |
Disinfection of surface and ground waters with polymeric ultrafiltration membranes
Konieczny K |
| 259 - 262 |
Silt density indices (SDI), percent plugging factor (%PF): their relation to actual foulant deposition
Kremen SS, Tanner M |
| 263 - 273 |
Integrated multi-objective membrane systems application of reverse osmosis at the Amsterdam Water Supply
Nederlof MM, Kruithof JC, Hofman JAMH, de Koning M, van der Hoek JP, Bonne PAC |
| 275 - 276 |
Feasibility of micro- and ultrafiltration for the direct treatment of surface water: results of various pilot studies
Oosterom H, Galjaard G, Nederlof MM, Schippers JC |
| 277 - 287 |
Ultra- and microfiltration pilot plant investigations to treat reservoir water
Panglisch S, Dautzenberg W, Kiepke O, Gimbel R, Gebel J, Kirsch A, Exner M |
| 289 - 293 |
Purification of landfill leachate with reverse osmosis and nanofiltration
Peters TA |
| 295 - 301 |
Removal of hardness from groundwater by nanofiltration
Schaep J, Van der Bruggen B, Uytterhoeven S, Croux R, Vandecasteele C, Wilms D, Van Houtte E, Vanlergberghe F |
| 303 - 308 |
Characterisation of surface properties of ceramic ultrafiltration membranes by studying diffusion-driven transport and streaming potential
Szymczyk A, Fievet P, Reggiani JC, Pagetti J |
| 309 - 313 |
Study of electrokinetic properties of plate ceramic membranes by electroosmosis and streaming potential
Szymczyk A, Fievet P, Mullet M, Reggiani JC, Pagetti J |
| 315 - 321 |
Ultrafiltration as an advanced tertiary treatment process for municipal wastewater
Tchobanoglous G, Darby J, Bourgeous K, McArdle J, Genest P, Tylla M |
| 323 - 326 |
Membrane filtration and pre-treatment by GAC
Tsujimoto W, Kimura H, Izu T, Irie T |
| 327 - 333 |
Design of a stand alone PV - desalination system for rural areas
Tzen E, Perrakis K, Baltas P |
| 335 - 339 |
Ultrafiltration of surface water with (R) MOLPURE FW50 hollow fibre module
Weber P, Knauf R |
| 341 - 345 |
Innovative design of nano- and ultrafiltration plants
Wessels LP, Van der Meer WGJ, Van Paassen WC, Vos G |
| 347 - 352 |
Treatment of a hard borehole water containing law levels of pesticide by nanofiltration
Wittmann E, Cote P, Medici C, Leech J, Turner AG |
| 353 - 354 |
Development of portable pure water solution
Wang H, Zhang G |
| 355 - 356 |
Production of ultrapure water for the STN-LCD process line
Zhang G, Shong J |
| 357 - 358 |
Water re-use in an oil refinery
Duyvesteijn CPTM |
| 359 - 360 |
Modification of Tefzel film by graft copolymerization of acrylonitrile and methacrylonitrile for use as membrane
Kaur I, Chauhan GS, Misra BN |
| 361 - 362 |
Purification of waste water from heavy metals by using ceramic membranes and natural polyelectrolytes
Mynin VN, Terpugov GV |
| 363 - 364 |
A membrane apparatus design for cellulose-paper manufacture drains purification
Mynin VN, Terpugov GV |
