References

  1. W.L. Ang, A.W. Mohammad, N. Hilal, C.P. Leo, Review on the applicability of integrated/hybrid membrane processes in water treatment, Desalination, 363 (2015) 2–18.
  2. A. El-Sadek, Water desalination: an imperative measure for water, Desalination, 250 (2010) 876–884.
  3. I.C. Karagiannis, P.G. Soldatos, Water desalination cost literature: review and assessment, Desalination, 223 (2008) 448–456.
  4. H.S. Peavy, D.R. Rowe, G. Tchobanoglous, Environmetal Engineering, NY: Asas, 1985.
  5. K.S. Jacobson, D.M. Drew, Z. He, Efficient salt removal in a continuously operated up-flow microbial desalination cell with an air cathode, Bioresour. Technol., 102 (2011) 376–380.
  6. C.J. Vörösmarty, P.B. McIntyre, M.O. Gessner, D. Dudgeon, A. Prusevich, P. Green, S. Glidden, S.E. Bunn, C.A. Sullivan, C.R. Liermann, P.M. Davies, Global threats to human water security and river biodiversity, Nature, 467 (2010) 555–561.
  7. L. Mehta, Whose scarcity? Whose property? The case of water in western India, Land Use Policy, 24(4) (2007) 654–663.
  8. B. Zhang, Z. He, Improving water desalination by hydraulically coupling an osmotic microbial fuel cell with a microbial desalination cell, J. Membr. Sci., 441 (2013) 18–24.
  9. M. Shatat, B.S. Riffat, Water desalination technologies utilizing conventional and renewable energy sources, Int. J. Low-Carbon Technol., 9 (2014) 1–19.
  10. H.J. Oh, T.M. Hwang, S. Lee, A simplified simulation of RO systems for seawater desalination, Desalination, 238 (2009) 128–139.
  11. M. Wilf, C. Bartels, Optimization of seawater RO systems design, Desalination, 173 (2005) 1–12.
  12. M. Qasim, Performance of forward osmosis using various membranes, M.Sc thesis, American University of Sharjah, Sharjah, United Arab Emirates, 2013.
  13. T. Bleninger, G.H. Jirka, Environmental planning, prediction and management of brine discharges from desalination plants, Research Center (MEDRC), Muscat, 2010.
  14. IDA, International Desalination Association, 30 June 2015. [Online]. Available: http://idadesal.org/desalination-101/desalination-by-the-numbers/. [Accessed 8 February 2018].
  15. M. Nair, D. Kumar, Water desalination and challenges: the Middle East perspective: a review, Desal. Water Treat., 51(10– 12) (2013) 2030–2040.
  16. A.D. Khawajia, I.K. Kutubkhanaha, J. Wieb, Advances in seawater desalination technologies, Desalination, 221 (2008) 47–69.
  17. F. Münk, Ecological and economic analysis of seawater desalination plants, M.Sc thesis, University of Karlsruhe, Karlsruhe, 2008.
  18. O.K. Ouda, Domestic water demand in Saudi Arabia: assessment of desalinated water as strategic supply source, Desal. Water Treat., 56(11) (2014) 2824–2834.
  19. N. Ahmad, R.E. Baddour, A review of sources, effects, disposal methods, and regulations of brine into marine environments, Ocean Coast. Manage., 87 (2014) 1–7.
  20. S. Maalouf, D. Rosso, W.W. Yeh, Optimal planning and design of seawater RO brine outfalls under environmental uncertainty, Desalination, 333 (2014) 134–145.
  21. P. Palomar, J.L. Lara, I.J. Losada, M. Rodrigo, A. Alvárez, Near field brine discharge modelling part 1: analysis of commercial tools, Desalination, 290 (2012) 14–27.
  22. D. Xevgenos, K. Moustakas, D. Malamis, M. Loizidou, An overview on desalination and sustainability: renewable energy-driven desalination and brine management, Desal. Water Treat., 57(5) (2016) 2304–2314.
  23. S. Lattemann, T. Höpner, Environmental impact and impact assessment of seawater desalination, Desalination, 220 (2008) 1–15.
  24. E. Portillo, G. Louzara, M. Ruiz de la Rosa, J. Quesada, J.C. Gonzalez, F. Roque, M. Antequera, H. Mendoza, Venturi diffusers as enhancing devices for the dilution process in desalination plant brine discharges, Desal. Water Treat., 51 (2013) 525–542.
  25. B. Ladewig, B. Asquith, Desalination concentrate management, Verlag Berlin Heidelberg: Springer, 2012.
  26. M.H. El-Naas, Reject brine management, in Desalination, Trends and Technologies, In Tech, (2011) 237–252.
  27. N. Voutchkov, Overview of seawater concentrate disposal alternatives, Desalination, 273 (2011) 205–219.
  28. P. Palomar, J.L. Lara, I.J. Losada, Near field brine discharge modeling part 2: validation of commercial tools, Desalination, 290 (2012) 28–42.
  29. G.H. Jirka, P.J. Akar, Hydrodynamic classification of submerged multi port diffuser discharges, J. Hydraul. Eng., 117 (1991) 1113–1128.
  30. PCBS, Estimated population in the palestinian territory midyear by governorate, 1997–2017, Palestinian central bureau of statistics, 2017. [Online]. Available: http://www.pcbs.gov.ps. [Accessed 15 December 2017].
  31. PWA, The comparative study of options for an additional supply of water for the Gaza strip (CSO-G), the updated final report, Palestinian Water Authority, Gaza, Palestine, 2011.
  32. PWA, Gaza strip: no clean drinking water, no enough energy, and threatened future, Palestinian Water Authority, Gaza, Palestine, 2014.
  33. M. Aufleger, M. Mett, Handshake across the jordan: Water and Understanding, Norderstedt: Innsbruck University Press, 2011.
  34. PWA, Gaza strip: desalination facility project: necessity, politics and energy, Palestinian Water Authority, Gaza, Palestine, 2015.
  35. PWA, Gaza water resources status report, 2013/2014, Palestinian Water Authority, Gaza, Palestine, 2014.
  36. PWA, Baseline study on water quality and public health in the Gaza Strip, Gaza programme coordination unit (G-PCU), Palestinian Water Authority, Gaza, Palestine, 2015.
  37. MOH, Communicable diseases in Gaza Strip-2014, Palestinian Ministry of Health, Gaza, Palestine, 2014.
  38. PWA, Status report of water resources in the occupied state of Palestine-2012, Palestinian Water Authority, Ramallah, Palestine, 2013.
  39. Y. Mogheir, A.A. Foul, A.A. Abuhabib, A.W. Mohammad, Assessment of large scale brackish water desalination plants in the Gaza strip, Desalination, 314 (2013) 96–100.
  40. H. Baalousha, Desalination status in the Gaza strip and its environmental impact, Desalination, 196 (2006) 1–12.
  41. S. Ghabayen, M. McKee, M. Kemblowski, Characterization of uncertainties in the operation and economics of the proposed seawater desalination plant in the Gaza strip, Desalination, 161 (2004) 191–201.
  42. R. El Sheikh, M. Ahmed, S. Hamdan, Strategy of water desalination in the Gaza strip, Desalination, 156 (2003) 39–42.
  43. S.A. Assaf, Existing and the future planned desalination facilities in the Gaza strip of Palestine and their socio-economic and environmental impact, Desalination, 138 (2001) 17–28.
  44. UfM, Gaza Desalination Project The Largest Single Facility to be built in Gaza, Union for the Mediterranean Secretariat, 2011.
  45. M. Abualtayef, H. Al-Najjar, Y. Mogheir, A.K. Seif, Numerical modeling of brine disposal from Gaza central seawater desalination plant, Arab. J. Geosci., 9(10) (2016) 572–590.
  46. CMWU, Annual report 2016, Coastal Municipalities Water Utility, Gaza, Palestine, 2017.
  47. UN, Office of the United Nations special coordinator for the Middle East peace process report to Ad Hoc Liaison Committee, United Nations, New York, 2014.
  48. UN, Office of the UN special coordinator for the Middle East peace process (UNSCO), United Nations, Brussels, 2017.
  49. I. Alameddine, M. El-Fadel, Brine discharge from desalination plants: a modeling approach to an optimized outfall design, Desalination, 214 (2007) 241–260.
  50. EQA, Palestinian environmental law (PEL), Decree No. 7, Environment Quality Authority, Palestine, 1999.
  51. PWA, Palestinian water law (PWL), Decree No. 3, Palestinian Water Authority, Palestine, 2002.
  52. PWA, Palestinian water law (PWL), Decree No. 14, Palestinian Water Authority, Palestine, 2014.
  53. UNEP, Seawater desalination in the Mediterranean: assessment and guidelines-model permit and ambient standards, The United Nations Environment Programme, Barcelona, 2003.
  54. J.L. Sánchez-Lizaso, J. Romero, J. Ruiz, E. Gacia, J.L. Buceta, O. Invers, Y.F. Torquemada, J. Mas, A. Ruiz-Mateo, M. Manzanera, Salinity tolerance of the mediterranean sea grass posidonia oceanica: recommendations to minimize the impact of brine discharges from desalination plants, Desalination, 221 (2008) 602–607.
  55. R. Miri, A. Chouikhi, Eco toxicological marine impacts from seawater desalination plants, Desalination, 182 (2005) 403–410.
  56. A. Ciocanea, V. Badescu, R.B. Cathcart, C.W. Finkl, Reducing the risk associated to desalination brine disposal on the coastal areas of red sea, in C. Finkl, ed., Coastal Hazards Coastal Research Library, vol 1000, Dordrecht, Springer, 2013, pp. 285–316.
  57. G. Boeuf, P. Payan, How should salinity influence fish growth?, Desalination, 130 (2001) 411–423.
  58. EPA, National recommended water quality criteria, U.S. EPA, Washington, D.C., 2004.
  59. EPA, Quality criteria for water, U.S. EPA, Washington, D.C., 1976.
  60. EPA, Ambient water quality citeria for chlorine-1984, U.S. EPA, Washington, D.C., 1985.
  61. C.E.Q. Guidelines, Canadian water quality guidelines for the protection of aquatic life: Reactive chlorine, Canadian Council of Ministers of the Environment, Winnipeg, 1999.
  62. G.A. Holland, J.E. Lasater, E.D. Newman, W.E. Eldridge, Chlorine and chloramine experiments. Part of toxic effects of organic and inorganic pollutants on young salmon and trout, Res. Bull. Wash. St. Dept. Fish, 5 (1960) 198–216.
  63. M.H. Roberts Jr, R.J. Diaz, M.E. Bender, R.J. Huggett, Acute toxicity of chlorine to selected estuarine species, J. Fisheries Res. Board Canada, 32(12) (1975) 2525–2528.
  64. D.J. Fisher, D.T. Burton, L.T. Yonkos, S.D. Turley, B.S. Turley, G.P. Ziegler, E.J. Zillioux, Acute and short-term chronic effects of continuous and intermittent chlorination on mysidopsis bahia and menidia beryllina, Environ. Toxicol. Chem., 13(9) (1994) 1525–1534.
  65. D.J. Fisher, D.T. Burton, L.T. Yonkos, S.D. Turley, G.P. Ziegler, The relative acute toxicity of continuous and intermittent exposures of chlorine and bromine to aquatic organisms in the presence and absence of ammonia, Water Res., 33(3) (1999) 760–768.
  66. R. Alderson, Effects of low concentrations of free chlorine on eggs and larvae of plaice (Pleuronectes platessa L.), in Marine Pollution and Sea Life, vol. 1, M. Ruivo, Ed., Surrey, FAO, Fishing News (Books) Ltd., 1970, p. 157.
  67. D.P. Middaugh, J.A. Couch, A.M. Crane, Responses of early life history stages of the striped bass, Morone saxatilis to chlorination, Chesapeake Sci., 18(1) (1977) 141–153.
  68. M.H. Roberts Jr, R.A. Gleeson, Acute toxicity of bromochlorinated seawater to selected estuarine species with a comparison to chlorinated seawater toxicity, Marine Environ. Res., 1(1) (1978) 19–30.
  69. G. Scott, D. Middaugh, Seasonal chronic toxicity of chlorination to the American oyster, ‘crassostrea virginica’ (g), U.S. Environmental Protection Agency, Washington, D.C., 1978.
  70. J.M. Capuzzo, The effect of temperature on the toxicity of chlorinated cooling waters to marine animals — A preliminary review, Marine Pollut. Bull., 10(2) (1979) 45–47.
  71. EPA, Quallty criteria for water, U.S. Environmental Protection Agency, Washington. D.C., 1986.
  72. S. Al-Sanea, J. Orfi, A. Najib, Numerical study of flow, temperature, and salinity distributions of a brine discharge problem, Desal. Water Treat., 55(12) (2014) 3218–3230.
  73. A. Perlin, E. Kit, J. Waterway, Port, Coastal, Ocean Engineering, 125(2) (1999) 81–83.
  74. M. Abualtayef, A.A. Foul, S. Ghabayen, A.A. Rabou, A. Seif, O. Mata, Mitigation measures for Gaza coastal erosion, J. Coast. Develop., 16(2) (2013) 135–146.
  75. MEnA, Gaza coastal and marine environmental protection and management action plan, Ministry of Environmental Affairs, Jerusalem, 2001.
  76. MoA, Palestinian fishing sector and economic, Ministry of Agriculture, Gaza, 2016.
  77. M. Abualtayef, S. Ghabayen, A.A. Foul, A. Seif, M. Kuroiwa, Y. Matsubara, O. Mata, The impact of Gaza fishing harbour on the Mediterranean coast of Gaza, J. Coast. Develop., 16(1) (2012) 1–10.
  78. M. Abualtayef, A.A. Rabou, A.A. Foul, S. Ghabayen, H. Elsinwar, Microbial water quality of coastal recreational water in the Gaza strip, Bioscience, 6(1) (2014) 26–32.
  79. F. Rabah, Impact assessment of wastewater and solid waste disposal in to wadi gaza on groundwater, soil, and seawater, Int. J. Emerg. Technol. Adv. Eng., 3(9) (2013) 71–81.
  80. A.H. Hilles, A.I. Al-Hindi, Y.A.A. Safieh, Is Gaza sandy shoreline region contaminated with human gastrointestinal parasites?, Jordan J. Biol. Sci., 6(3) (2013) 205–210.
  81. A. Elmanaema, M. Fahd, S. Afifi, S. Abdallah, S. Bahr, Microbiological beach sand quality in Gaza strip in comparison to seawater, Environ. Res., 99(1) (2005) 1–10.
  82. S. Afifi, A. Elmanaema, M. Shubair, Microbiological assessment of beach quality in Gaza strip, Egypt. J. Med. Lab. Sci., 9(1) (2000) 51–63.
  83. G.R. Jones, J.D. Nash, R.L. Doneker, G.H. Jirka, Buoyant surface discharges into water bodies. I: flow classification and prediction methodology, J. Hydraul. Eng., 133(9) (2007) 1010– 1020.
  84. R.L. Doneker, G.H. Jirka, CORMIX user manual: a hydrodynamic mixing zone model and decision support system for pollutant discharges into surface waters, Mix Zon Inc., Portland, 2007.
  85. MEDAR, Vertical climatological profiles in the Mediterranean, Mediterranean Data Archeology and Rescue, available: http://doga.ogs.trieste.it/medar. [Accessed 12 June 2017].
  86. MoA, Deir Al Balah metrological data for 2015–2016, Ministry of Agriculture, Gaza, 2016.
  87. IOLR, Israel Marine Data Center, Israel oceanographic and limnological research, available: http://isramar.ocean.org.il. [Accessed 5 May 2017].
  88. D.S. Rosen, A summary of the environmental and hydrographic characteristics of the Mediterranean coast of Israel, Israel Oceanographic & Limnological Research, National Institute of Oceanography, Haifa, 2001.
  89. High-resolution nested model simulations of the climatological circulation in the southeastern Mediterranean Sea, Annales Geophysicae, European Geosciences Union, 21(1) (2003) 267–280.
  90. PWA, Marine survey for Gaza central desalination, Palestinian Water Authority, Gaza, Palestine, 2015.
  91. M. Latorre, Environmental impact of brine disposal on posidonia sea grasses, Desalination, 182 (2005) 517–524.
  92. A. Purnama, CORMIX simulations of surface brine discharges: a case study, in Proc. 2nd International conference on environmental pollution and remediation, Montreal, Quebec, Canada, 2012.
  93. A. Purnama, H.H. Al-Barwani, M. Al-Lawatia, Modeling dispersion of brine waste discharge from a coastal desalination plant, Desalination, 155 (2003) 41–47.
  94. A. Purnama, Analytical model for brine discharges from a sea outfall with multi port diffusers, World Acad. Sci. Eng. Technol., 80 (2011) 57–61.
  95. G.H. Jirka, Improved discharge configurations for brine effluents from desalination plants, J. Hydraul. Eng., 134(1) (2008) 116–120.
  96. T. Bleninger, G.H. Jirka, Modelling and environmentally sound management of brine discharges from desalination plants, Desalination, 221 (2008) 585–597.
  97. T. Bleninger, A. Niepelt, G.H. Jirka, Desalination plant discharge calculator, Desal. Water Treat., 13 (2010) 156–173.
  98. A. Purnama, M. Baawain, Y. Sarma, Optimizing a submerged outfall design through cormix simulations, J. Sci. Technol. Environ., 2(1) (2012) 1–10.