References

  1. S. Bou-Hamad, M. Abdel-Jawad, S. Ebrahim, M. Al-Mansour and A. Al-Hijji, Performance evaluation of three different pretreatment systems for seawater reverse osmosis technique, Desalination, 110 (1997) 85–91.
  2. A. Teuler, K. Glucina and J. M. Laine, Assessment of UF pretreatment prior RO membranes for seawater desalination, Desalination, 125 (1999) 89–96.
  3. A.M. Hassan, A.M. Farooque, A.T.M. Jamaluddin, A.S. Al-Amoudi, M.AK. A1-Sofi, A.F. Al-Rubaian, N.M. Kither, I.A.R. A1-Tisan and A. Rowaili, A demonstration plant based on the new NF-SWRO process, Desalination, 131 (2000) 157–171.
  4. A. Brehant, V. Bonnelye and M. Perez, Comparison of MF/UF pretreatment with conventional filtration prior to RO membranes for surface seawater desalination, Desalination, 144 (2002) 353–360.
  5. T.K. Chua, A.M.N. Hawlader and A. Malek, Pretreatment of seawater: Results of pilot trials in Singapore, Desalination, 159 (2003) 225–243.
  6. V. Bonnélye, L. Guey and J. Del Castillo, UF/MF as RO pretreatment: the real benefit, Desalination, 222 (2008) 59–65.
  7. J. Xu, G. Ruan, X. Gao, X. Pan, B. Su and C. Gao, Pilot study of inside-out and outside-in hollow fiber UF modules as direct pretreatment of seawater at low temperature for reverse osmosis, Desalination, 219 (2008) 179–189.
  8. J. Xu, G. Ruan, X. Chu, Y. Yao, B. Su and C. Gao, A pilot study of UF pretreatment without any chemicals for SWRO desalination in China, Desalination, 207 (2007) 216–226.
  9. T.Y. Cath, A.E. Childress and M. Elimelech, Forward osmosis: Principles, applications, and recent developments, J. Membr. Sci., 281 (2006) 70–87.
  10. T.Y. Cath, V.D. Adams and A.E. Childress, Membrane contactor processes for wastewater reclamation in space. II. Combined direct osmosis, osmotic distillation, and membrane distillation for treatment of metabolic wastewater, J. Membr. Sci., 257 (2005) 85–98.
  11. T.Y. Cath, , S. Gormly, V.D. Adams, E.G. Beaudry, M.T. Flynn and A.E. Childress, Membrane contactor processes for wastewater reclamation in space. I. Direct osmotic concentration as pretreatment for reverse osmosis, J. Membr. Sci., 257 (2005) 111–119.
  12. P. Glueckstern, M. Priel, A. Thom and Y. Gelman, Desalination of brackish fish pond effluents — pilot testing and comparative economic evaluation of integrated UF-RO systems vs. conventional systems, Desalination, 132 (2000) 55–64.
  13. A.D. Khawaji, I.K. Kutubkhanah and J.M. Wie, Advances in seawater desalination technologies, Desalination, 221 (2008) 47–69.
  14. G. Pearce, S. Talo, K. Chida, A. Basha and A. Gulamhusein, Pretreatment options for large-scale SWRO plants: case studies of UF trials at Kindasa, Saudi Arabia, and conventional pretreatment in Spain, Desalination, 167 (2004) 175–189.
  15. M. Kumar, S. Adham and W. Pearce, Investigation of seawater reverse osmosis fouling and its relationship to pretreatment type, Environ. Sci. Technol., 40 (2006) 2037–2044.
  16. F. Knops, S. van Hoof, H. Futselaar and L. Broens, Economic evaluation of a new ultrafiltration membrane for pretreatment of seawater reverse osmosis, Desalination, 203 (2007) 300–306.
  17. G.K. Pearce, UF/MF pre-treatment to RO in seawater and wastewater reuse applications: a comparison of energy costs, Desalination, 222 (2008) 66–73.
  18. J.R. McCutcheon, R.L. McGinnis and M. Elimelech, Desalination by a novel ammonia–carbon dioxide forward osmosis process: influence of draw and feed solution concentrations on process performance, J. Membr. Sci., 278 (2006) 114–123.
  19. U. Seibert, G. Vogt, C. Brennig, R. Gebhard and F. Holz, Autonomous desalination system concepts for seawater and brackish water in rural areas with renewable energies—potentials, technologies, field experience,
    socio-technical and socioeconomic impacts—ADIRA, Desalination, 168 (2004) 29–37.
  20. C. Epp and M. Papapetrou, Co-ordination action for autonomous desalination units based on renewable energy systems— ADU-RES, Desalination, 168 (2004) 89–93.
  21. J.R. McCutcheon and M. Elimelech, Influence of concentrative and dilutive internal concentration polarization on flux behavior in forward osmosis, J. Membr. Sci., 284 (2006) 237–247.
  22. Hydration Technologies, Inc., Forward osmosis, White paper Osmotic water purification devices, 2003.
  23. G.D. Mehta, Further results on the performance of present-day osmotic membranes in various osmotic regions, J. Membr. Sci., 10 (1982) 3–19.
  24. J.R. McCutcheon, R.L. McGinnis and M. Elimelech, A novel ammonia-carbon dioxide forward (direct) osmosis desalination process, Desalination, 174 (2005) 1–11.
  25. J.R. McCutcheon and M. Elimelech, Influence of membrane support layer hydrophobicity on water flux in osmotically driven membrane processes, J. Membr. Sci., 318 (2008) 458–466.
  26. S.M.S. Ghiu, R.P. Carnahan and M. Barger, Permeability of electrolytes through a flat RO membrane in a direct osmosis study, Desalination, 144 (2002) 387–392.
  27. B. Mi and M. Elimelech, Chemical and physical aspects of organic fouling of forward osmosis membranes,
    J. Membr. Sci., 320 (2008) 292–302.
  28. R.W. Holloway, A.E. Childress, K.E. Dennett and T.Y. Cath, Forward osmosis for concentration of anaerobic digester concentrate, Water Res., 41 (2007) 4005–4014.