| 111 - 117 |
Drinking water supply in Italy
Barba D, Caputi P, Cifoni D |
| 119 - 127 |
Role of membrane technology in drinking water treatment in the United States
Jacangelo JG, Trussell RR, Watson M |
| 129 - 146 |
Theoretical optimization of spiral-wound and capillary nanofiltration modules
van der Meer WGJ, van Dijk JC |
| 147 - 152 |
Ultra-low pressure RO membranes: an analysis of performance and cost
Filteau G, Moss P |
| 153 - 156 |
New development in nanofiltration and reverse osmosis membrane manufacturing
de Witte J |
| 157 - 163 |
Design consequences of recent improvements in membrane performance
Wilf M |
| 165 - 177 |
Latest developments in ultrafiltration for large-scale drinking water applications
Doyen W |
| 179 - 181 |
Integrity of membrane elements, vessels and systems
Nederlof MM, Folmer HC, Verdouw J, Heijman B |
| 183 - 187 |
Assessment of a particle counting method for hollow fiber membrane integrity
Glucina K, Do-Quang Z, Laine JM |
| 189 - 196 |
Immersed membrane activated sludge for the reuse of municipal wastewater
Cote P, Buisson H, Pound C, Arakaki G |
| 197 - 203 |
Treatment of low-contaminated waste water from the food industry to produce water of drinking quality for reuse
Mavrov V, Fahnrich A, Chmiel H |
| 205 - 208 |
Removal of pesticides and other micropollutants by nanofiltration
Berg P, Hagmeyer G, Gimbel R |
| 209 - 214 |
Removal of pesticides and other micropollutants with cellulose-acetate, polyamide and ultra-low pressure reverse osmosis membranes
Hofman JAMH, Beerendonk EF, Folmer HC, Kruithof JC |
| 215 - 225 |
Biofouling - the Achilles heel of membrane processes
Flemming HC, Schaule G, Griebe T, Schmitt J, Tamachkiarowa A |
| 227 - 229 |
Scale inhibition techniques used in membrane systems
Darton EG |
| 231 - 233 |
Prediction of flux decline in membrane systems due to particulate fouling
Boerlage SFE, Kennedy MD, Bonne PAC, Galjaard G, Schippers JC |
| 235 - 246 |
Modelling non-Newtonian behaviour of gel layers at membrane surfaces in membrane filtration
Agashichev S |
| 247 - 249 |
Optimization of operation and cleaning of membranes - Results on ultra- and microfiltration pilot plant investigations to treat reservoir water
Panglisch S, Kiepke I, Dautzenberg W, Gimbel R |
| 251 - 261 |
Recovery and reuse of chemicals in unhairing, degreasing and chromium tanning processes by membranes
Cassano A, Drioli E, Molinari R |
| 263 - 266 |
The integrated nanofiltration system of the Mery-sur-Oise surface water treatment plant (37 mgd)
Ventresque C, Bablon G |
| 267 - 272 |
Full-scale application of membrane microfiltration in NorthWestWater Huntington stage 4, provision of an 80 Mld plant
Hillis P |
| 273 - 275 |
L'Apie and Vigneux case studies: First months of operation
Baudin I, Chevalier MR, Anselme C, Cornu S, Laine JM |
| 277 - 281 |
Performance of a nanofiltration plant on hard and highly sulphated water during two years of operation
Bertrand S, Lemaitre I, Wittmann E |
| 283 - 284 |
Full-scale treatment of filter backwash water in one step to drinking water
Vos G, Brekvoort Y, Buys P |
| 285 - 292 |
Treatment of soft reservoir water by limestone filtration in combination with ultrafiltration
Lipp P, Schmitt A, Baldauf G |
| 293 - 296 |
Environmental impact assessment of groundwater treatment with nanofiltration
Sombekke HDM, Voorhoeve DK, Hiemstra P |
| 297 - 301 |
Reverse osmosis systems in military or emergency operations
Quinn L |
| 303 - 307 |
Automatic monitoring of membrane integrity in microfiltration systems
Johnson WT |
| 309 - 323 |
Membrane selection and design considerations for meeting European potable water requirements based on different feedwater conditions
Redondo JA, Lanari F |
