| 1 - 8 |
Behaviour of the asynchronous electric motors to reduction of energy consumption in reverse osmosis plants
Sadhwani JJ, Deniz F |
| 9 - 21 |
Minimizing RO energy consumption under variable conditions of operation
Manth T, Gabor M, Oklejas E |
| 23 - 27 |
The work exchanger for reverse osmosis plants
Al-Hawaj OM |
| 29 - 30 |
Energy recovery technology interface between production of energy and water
Wiesenfeld B, Woog F |
| 31 - 32 |
Hybrid systems in seawater desalination - practical design aspects, status and development perspectives
Ludwig H |
| 33 - 49 |
Reverse osmosis incorporated into existing cogenerating systems as a sustainable technological alternative for United Arab Emirates
Agashichev SP, El-Dahshan ME |
| 51 - 56 |
Hybrid membrane - thermal versus simple membrane systems
Turek M, Dydo P |
| 57 - 64 |
Performance simulation of integrated water and power systems - software tools IPSEpro and RESYSpro for technical, economic and ecological analysis
Rheinlander J, Perz EW, Goebel O |
| 65 - 72 |
Second use for old reverse osmosis membranes: wastewater treatment
Veza JA, Rodriguez-Gonzalez JJ |
| 73 - 80 |
Combination of physico-chemical treatment and nanofiltration to reuse wastewater of a printing, dyeing and finishing textile industry
Bes-Pia A, Mendoza-Roca JA, Alcaina-Miranda MI, Iborra-Clar A, Iborra-Clar MI |
| 81 - 86 |
Comparison between nanofiltration and ozonation of biologically treated textile wastewater for its reuse in the industry
Bes-Pia A, Mendoza-Roca JA, Roig-Alcover L, Iborra-Clar A, Iborra-Clar MI, Alcaina-Miranda MI |
| 87 - 95 |
Water recycling from palm oil mill effluent (POME) using membrane technology
Ahmad AL, Ismail S, Bhatia S |
| 97 - 104 |
Study of new integrated processes combining adsorption, membrane separation and flotation for heavy metal removal from wastewater
Mavrov V, Erwe T, Blocher C, Chmiel H |
| 105 - 111 |
Predicting flux and rejection of multicomponent salts mixture in nanofiltration membranes
Mohammad AW, Takriff MS |
| 113 - 125 |
Characteristics and application of new ceramic nanofiltration membranes
Weber R, Chmiel H, Mavrov V |
| 127 - 134 |
Studies of halide ions mass transfer in nanofiltration - application to selective defluorination of brackish drinking water
Pontie M, Buisson H, Diawara CK, Essis-Tome H |
| 135 - 136 |
Direct capillary nanofiltration for surface water
Futselaar H, Schonewille H, van der Meer W |
| 137 - 144 |
Using atomic force microscopy towards improvement in nanofiltration membranes properties for desalination pre-treatment: a review
Hilal N, Mohammad AW, Atkin B, Darwish NA |
| 145 - 149 |
Optimization of energy consumption in the 3300 m(3)/d RO Kerkennah plant
Fethi K |
| 151 - 158 |
Energy consumption and membrane replacement cost for seawater RO desalination plants
Avlonitis SA, Kouroumbas K, Vlachakis N |
| 159 - 165 |
Optiflux (R): from innovation to realisation
van der Meer WGJ, van Paassen JAM, Riemersma MC, van Ekkendonk FHJ |
| 167 - 167 |
Desalination of brackish water by nanofiltration and reverse osmosis
Mohsen MS, Jaber JO, Afonso MD |
| 169 - 191 |
Scaling of RO membranes from silica supersaturated solutions
Semiat R, Sutzkover I, Hasson D |
| 193 - 207 |
Induction times induced in an RO system by antiscalants delaying CaSO4 precipitation
Hasson D, Drak A, Semiat R |
| 209 - 216 |
Novel antiscalant dosing control
Zeiher EHK, Ho B, Williams KD |
| 217 - 234 |
Kinetics and thermodynamics of calcium carbonate and calcium sulfate at salinities up to 1.5 M
Sheikholeslami R, Ong HWK |
| 235 - 240 |
About seed concentration for prevention of scale
Linnikov OD |
| 241 - 252 |
Nuclear deslination: a viable option for producing freshwater
Faibish RS, Konishi T |
| 253 - 258 |
Economic pre-feasibility study of seawater desalination for a high-temperature gas-cooled reactor by reverse osmosis
Tian L, Guo JL, Sun YL |
| 259 - 268 |
Coupling of a nuclear reactor to hybrid RO-MSF desalination plants
Al-Mutaz IS |
| 269 - 276 |
Water resources and potential of seawater desalination in Shandong peninsula
Wang YH, Zhang YJ, Zheng WX |
| 277 - 287 |
MSF nuclear desalination
Faibish RS, Ettouney H |
| 289 - 296 |
A comparative economic analysis of the contribution of nuclear seawater desalination to environmental protection using the clean development mechanism (CDM)
Tian L, Wang YQ, Guo JL |
| 297 - 305 |
Theoretical and experimental studies on desalination using the sweeping gas membrane distillation method
Khayet M, Godino MP, Mengual JI |
| 307 - 314 |
Membrane distillation for water desalination: how to chose an appropriate membrane?
Cabassud C, Wirth D |
| 315 - 324 |
Modelling temperature and salt concentration distribution in membrane distillation feed channel
Chernyshov MN, Meindersma GW, de Haan AB |
| 325 - 331 |
Theoretical and experimental research of liquid-gap membrane distillation process in membrane module
Ugrozov VV, Elkina IB, Nikulin VN, Kataeva LI |
| 333 - 333 |
Using concentration polarization factors to determine the mass transfer resistance in vacuum membrane distillation
Bani-Melhem K |
| 335 - 343 |
The role of blocking and cake filtration in MIBR fouling
Jiang T, Kennedy MD, van der Meer WGJ, Vanrolleghem PA, Schippers JC |
| 345 - 352 |
Enhanced biological phosphorus and nitrogen removal using a sequencing anoxic/anaerobic membrane bioreactor (SAM) process
Ahn KH, Song KG, Cho ES, Cho JW, Yun HJ, Lee SH, Kim JY |
| 353 - 359 |
Performance of membrane bioreactor system with sludge ozonation process for minimization of excess sludge production
Song KG, Choung YK, Ahn KH, Cho JW, Yun HJ |
| 361 - 365 |
Tools for fouling diagnosis of NF and RO membranes and assessment of the fouling potential of feed water
Vrouwenvelder JS, Kappelhof JWNM, Heijman SGJ, Schippers JC, van der Kooij D |
| 367 - 367 |
Autopsies of membranes fouled on Mery-sur-Oise pilot units: many lessons for the behaviour of the water treatment plant
Plottu A, Houssais B, Democrate C, Gatel D, Cavard J |
| 369 - 375 |
Modeling of membrane fouling and flux decline in reverse osmosis during separation of oil in water emulsions
Mohammadi T, Kazemimoghadam M, Saadabadi M |
| 377 - 384 |
A new solution for the Caspian Sea desalination: low-pressure membranes
Pervov AG, Andrianov AP, Efremov RV, Desyatov AV, Baranov AE |
| 385 - 393 |
Mass transfer in RO TFC membranes - dependence on the salt physical and thermodynamic parameters
Ghiu SMS, Carnahan RP, Barger M |
| 395 - 402 |
Hydrodynamics and concentration polarization in NFRO spiralwound modules with ladder-type spacers
Geraldes V, Semiao V, Pinho MN |
| 403 - 407 |
Water deactivation by reverse osmosis
Kryvoruchko AP, Kornilovich BY |
