References

  1. 21st GWI/IDA Worldwide Desalting Plant Inventory, 2008.
  2. E. Koutsakos, D. Moxey, Larnaca desalination plant, Cyprusfrom an efficient to an effective plant operation, Desalination, 221 (2008) 84–91.
  3. M. Katsube, K. Marui, S. Tanaka, M. Al-Thubaiti, Y. Al Jehani, H. Iwahashi, Around Twenty-Year Operational History of Jeddah RO Plant Using hollow-Fiber RO Modules, IDA World Congress-The Palm-Dubai, UAE November 7–12, DB09-183. SWCC recovery, 2009.
  4. R.A. Al-Rasheed, S.A. Al-Sulami, G. Hassain, Survey of Boron Levels in Seawater Desalination Plants in Saudi Arabia, IDAWC, Spain, MP07-164, 2007.
  5. A.Z. Abdellatif, A.S. Al-Amoudi, A.M. Farooque, T.N. Green, Prospects for improving the performance of SWRO plants by implementing advanced NF/RO techniques: Part-1, Desal. Wat. Treat., 115 (2018) 8–23.
  6. B. Liberman, M. Wilf, Evolution of Configuration of RO Seawater Desalination Systems, IDA SP05-059, 2005.
  7. M. Brusilovsky, M. Faigon, The impact of varying the number of elements per PV in SWRO plants- actual and future configurations, Desalination, 184 (2005) 233–240.
  8. A.Z. Abdellatif, A.M. Farooque, F.A. Ghazzai, N.M. Kither, S.I. Al-Khames, Optimum NF membrane arrangements in seawater pretreatment Part-1, Desal. Wat. Treat., 28 (2011) 1–17.
  9. D.T. Bray, U.S. Patent 4,046,685, 1977.
  10. L. Stevens, J. Kowal, K. Herd, M. Wilf, W. Bates, Tampa Bay Seawater Desalination Facility: Start to Finish, IDA Conference, Bahamas, 2003.
  11. W.E. Mickols, M. Busch, Y. Maeda, J. Tonner. A Novel Design Approach for Seawater Plants, IDA World Congress, 2005.
  12. M. Busch, M. Brusilovsky, W.E. Mickols, A Novel Approach for Seawater Desalination Cost Reduction, EDS Conference, 2006.
  13. M. Kim, M.K. Chung, Y.S. So, S.R. Snog, Optimum Design of Partial Two-Pass Systems for SWRO Plants by Simulation Programs, IDAWC/TIAN 13-303, 2013.
  14. V. Bonnélye, L. Guey, J. Del Castillo, UF/MF as RO pretreatment: the real benefit, Desalination, 222 (2008) 59–65.
  15. A.M. Hassan, M.A. Al-Sofi, A.S. Al-Amoudi, T.M. Jamaluddin, A.M. Farooque, A. Rowaili, A.G. Dalvi, N.M. Kither, G.M. Mustafa, I.A. Al-Tisan, A new approach to membrane and thermal seawater desalination processes using nanofiltration membranes - Part 1, Desalination, 118 (1998) 35–51.
  16. A.M. Hassan, Process for Desalination of Saline Water, Especially, Water Having Increased Product Yield and Quality, Saline Water Conversion Corporation, US Patent 6,508,936 B1, 2003,.
  17. A.Z. Abdellatif, A.M. Farooque, F.A. Ghazzai, N.M. Kither, S.I. Al-Khames, Optimum NF Membrane Arrangements in Seawater Pretreatment Part-II, IDA, Dubai, DB09-059, 2009.
  18. A.Z. Abdellatif, A.M. Farooque, F.A. Ghazzai, N.M. Kither, Significant Improvements in NF Seawater Pretreatment up to 90% Recovery with 40% Reduction in Operational and Capital Costs WSTA Gulf Water Conference, March, Sultanate of Oman, Oman 10-014, 2010.
  19. A.Z. Abdellatif, Q.A. Al-Dwes, Alkalization of NF membrane seawater pretreatment for Boron removal, Desal. Wat. Reuse, 5 (2013) 48–60.
  20. A.Z. Abdellatif, Q.A. Al-Dwes, Cost effective Alkalized NF/ SWRO Instead of Conventional Techniques for very Severe Boron Regulation <0.1 mg/L, IDAWC, San Diego, CA, USA, 2015.
  21. A.Z. Abdellatif, U.S. Patent No. 9,090,491 B2, 2015.
  22. H.C. Van Der Mei, J. Atema-Smit, D. Jager, D.E. Langworthy, D.I. Collias, M.D. Mitchell, H.J. Busscher, Influence of adhesion to activated carbon particles on viability of waterborne pathogenic bacteria under flow, Biotechnol. Bioeng., 100 (2008) 810–813.