| 1 - 10 |
Biofouling potential of chemicals used for scale control in RO and NF membranes
Vrouwenvelder JS, Manolarakis SA, Veenendaal HR, van der Kooij D |
| 11 - 19 |
Application of low fouling RO membrane elements for reclamation of municipal wastewater
Wilf M, Alt S |
| 21 - 27 |
Flux enhancement of RO desalination processes
Abbas A, Al-Bastaki N |
| 29 - 40 |
Effects of environment on source water for desalination plants on the eastern coast of Saudi Arabia
Azis PKA, Al-Tisan I, Al-Daili M, Green TN, Dalvi AGI, Javeed MA |
| 41 - 45 |
A design/build approach to deep aquifer membrane treatment in Southern California
Everest WR, Malloy S |
| 47 - 54 |
Reverse osmosis concentrate disposal in the UK
Squire D |
| 55 - 64 |
Desalination of brackish fish pond effluents - pilot testing and comparative economic evaluation of integrated UF-RO systems vs. conventional systems
Glueckstern P, Priel M, Thoma A, Gelman Y |
| 65 - 72 |
Direct nanofiltration or ultrafiltration of WWTP effluent?
Duin O, Wessels P, van der Roest H, Uijterlinde C, Schoonewille H |
| 73 - 82 |
Assessment of an integrated membrane system for surface water treatment
Glucina K, Alvarez A, Laine JM |
| 83 - 87 |
The application of acid free antiscalant to mitigate scaling in reverse osmosis membranes
Al-Rammah A |
| 89 - 100 |
Prevention of silica scale in membrane systems: removal of monomer and polymer silica
Bremere I, Kennedy M, Mhyio S, Jaljuli A, Witkamp GJ, Schippers J |
| 101 - 108 |
Monitoring scaling in nanofiltration and reverse osmosis membrane systems
van de Lisdonk CAC, van Paassen JAM, Schippers JC |
| 109 - 119 |
Scaling control of RO membranes and direct treatment of surface water
Bonne PAC, Hofman JAMH, van der Hoek JP |
| 121 - 131 |
Membrane chemical research: centuries apart
Darton EG |
| 133 - 142 |
Photochemical modification of poly(ether sulfone) and sulfonated poly(sulfone) nanofiltration membranes for control of fouling by natural organic matter
Kilduff JE, Mattaraj S, Pieracci JP, Belfort G |
| 143 - 160 |
Seasonal variations of nanofiltration (NF) foulants: identification and control
Her N, Amy G, Jarusutthirak C |
| 161 - 165 |
Iowa's first electrodialysis reversal water treatment plant
Hays J |
| 167 - 171 |
Recycling of water with canal water supplement at Artis Zoo, Amsterdam, by means of ultrafiltration and reverse osmosis
Averink CWA, Buijs W |
| 173 - 179 |
Biofuoling in RO membrane systems Part 1: Fundamentals and control
Al-Ahmad M, Aleem FAA, Mutiri A, Ubaisy A |
| 181 - 187 |
Predicting the performance of RO membranes
Al-Bastaki NM, Abbas A |
| 189 - 193 |
Retention of herbicides and pesticides in relation to aging of RO membranes
Bonne PAC, Beerendonk EF, van der Hoek JP, Hofman JAMH |
| 195 - 197 |
Comparison of the electrodialytic properties on NiSO4 and NiCl2: Influence of the salt nature in electrodialysis
Bouhidel KE, Rumeau M |
| 199 - 204 |
Concentration polarization in electrodialysis: Buffer solutions experimental method
Bouhidel KE, Oulmi K |
| 205 - 209 |
Removal of pesticide residues in water using the nanofiltration process
Boussahel R, Bouland S, Moussaoui KM, Montiel A |
| 211 - 215 |
Four years field experience with fouling resistant reverse osmosis membranes
Coker S, Sehn P |
| 217 - 232 |
Studies on organic foulants in the seawater feed of reverse osmosis plants of SWCC
Dalvi AGI, Al-Rasheed R, Javeed MA |
| 233 - 242 |
Laboratory technique for predicting the scaling propensity of RO feed waters
Drak A, Glucina K, Busch M, Hasson D, Laine JM, Semiat R |
| 243 - 248 |
Membrane replacement in desalting facilities
Duranceau SJ |
| 249 - 253 |
Use of continuous electrodeionization to reduce ammonia concentration in steam generators blow-down of PWR nuclear power plants
Goffin C, Calay JC |
| 255 - 261 |
Determination of membrane properties for use in the modelling of a membrane distillation module
Guijt CM, Racz IG, Reith T, de Haan AB |
| 263 - 268 |
Desalination of seawater using nuclear heat
Hanra MS |
| 269 - 274 |
Modular desalting for specialized applications
Harris C |
| 275 - 280 |
Desalination of seawater: an experiment with RO membranes
Hawlader MNA, Ho JC, Teng CK |
| 281 - 286 |
Reverse osmosis of concentrated calcium sulphate solutions in the presence of iron (III) ions using composite membranes
Kavitskaya AA, Knyazkova TV, Maynarovich AA |
| 287 - 292 |
Nanofiltration for drinking water production from deep well water
Khalik A, Praptowidodo VS |
| 293 - 298 |
Starting procedure of high-pressure pump with de-rated motor for large-scale SWRO trains
Liberman B, Liberman I |
| 299 - 306 |
Investigation on purification of hydrochloric acid by membrane method
Linnikov OD, Anokhina EA, Scherbakov VE |
| 307 - 314 |
Application of low-pressure nanofiltration coupled with a bicycle pump for the treatment of arsenic-contaminated groundwater
Oh JI, Yamamoto K, Kitawaki H, Nakao S, Sugawara T, Rahman MM, Rahman MH |
| 315 - 321 |
RO and NF membrane systems for drinking water production and their maintenance techniques
Pervov AG, Dudkin EV, Sidorenko OA, Antipov VV, Khakhanov SA, Makarov RI |
| 323 - 328 |
Studies on seawater desalination by reverse osmosis at the Badak natural gas liquefaction plant, Bontang, East Kalimantan
Praptowidodo VS, Khalik A |
| 329 - 335 |
First land-based plant for RO desalination in Croatia
Sambrailo D, Ivic J |
| 337 - 344 |
Performance of RO membranes in silica bearing waters
Sheikholeslami R, Zhou S |
| 345 - 347 |
Combating water shortages with innovative uses of membranes
Vedavyasan CV |
| 349 - 352 |
A study of the electrodeionization process - high-purity water production with a RO/EDI system
Wang JY, Wang SC, Jin MR |
| 353 - 356 |
ETRAS thermal desalination system
Ras ET, Pomantoc JJ, Tumulaka EP, Ras RT, Falar PR, Lelis J |
