References

  1. I.A. Shiklomanov, J.C. Rodda, World Water Resources at the Beginning of the 21st Century, UNESCO, 2003.
  2. R. Sobhani, M. Abahusayn, C.J. Gabelich, D. Rosso, Energy footprint analysis of brackish groundwater desalination with zero liquid discharge in inland areas of the Arabian Peninsula, Desalination, 291 (2012) 106–116.
  3. M.D. Stuber, C. Sullivan, S.A. Kirk, J.A. Farrand, P.V. Schillaci, B.D. Fojtasek, A.H. Mandell, Pilot demonstration of concentrated solar-powered desalination of subsurface agricultural drainage water and other brackish groundwater sources, Desalination, 355 (2015) 186–196.
  4. Y.İ. Halil, M.S. Söylemez, Design and computer simulation on multi-effect evaporation seawater desalination system using hybrid renewable energy sources in Turkey, Desalination, 291 (2012) 23–40.
  5. M. Bessenasse, A. Kettab, A. Souffi Moulla, Seawater desalination: study of three coastal stations in Algiers region, Desalination, 250(2010) 423–427.
  6. S. Kehal, Retrospective et perspective du dessalement en Algérie, Desalination, 136 (2001) 35–42.
  7. A. Saadi, S. Kehal, Retrospectives and potential use of saline water desalination in Algeria, Desalination, 152 (2002) 51–56.
  8. B. Bouchekima, A small solar desalination plant for the production of drinking water in remote arid areas of southern Algeria, Desalination, 159 (2003) 197–204.
  9. Z. Tigrine, H. Abuhideh, M. Abbas, S. Hout, N. Kasbadji Merzouk, D. Zioui, M. Khateb, Membrane Desalination Technology in Algeria: Reverse Osmosis for Coastal Areas, 7th International Exergy, Energy and Environment Symposium, 26–30, Vallencienne, France, 2015.
  10. D. Abdeslame Dehmas, N. Kherba, F. Boukli Hacene, N. Kasbadji Merzouk, M. Merzouk, H. Mahmoudi, M. F.A. Goosen, On the use of wind energy to power reverse osmosis desalination plant: a case study from Ténès (Algeria), Renewable Sustainable Energy Rev., 15 (2011) 956–963.
  11. Z. Triki, M.N. Bouaziz, M. Boumaza, Techno-economic feasibility of wind-powered reverse osmosis brackish water desalination systems in southern Algeria, Desal. Water Treat., 52 (2014) 1745–1760.
  12. A. Diaf, A. Cherfa, L. Karadaniz, Z. Tigrine, A technical–economical study of solar desalination, Desalination, 377 (2016) 123–127.
  13. B. Messaouda, Aperçu Hydrogéologique et Hydrochimique Sur le Système de Captage Traditionnel des Eaux Souterraines “Foggara” Dans la Région D’adrar, Magister, Badji Mokhtar University, Annaba, Algeria, 2013.
  14. A. Djouad, A. Oubelaid, Etude Hydrochimique des Eaux de la Région de Gourara (Timimoune) Algérie, Master, Djillali Bounaama University, Khemis Miliana, Algeria, 2015.
  15. D. Settou, Etude Hydrogeologique Et Hydrochimique de la Nappe du Continentale Intercalaire de la Région de Touat (Wilaya D’adrar), Master, Kasdi Merbah University Ourgla, Algeria, 2013.
  16. F.Z. Kedaid, Data base of the geothermal resources of Algeria, Geothermics, 36 (2007) 265–275.
  17. Système Aquifere du Sahara Septentrional Une Conscience de Bassin, Vol. 2, Hydrogeologie, 2003.
  18. P. Palenzuela, D.C. A.Padilla, G. Zaragoza, Concentrating Solar Power and Desalination Plants: Engineering and Economics of Coupling Multi-Effect Distillation and Solar Plants, Springer International Publishing, Switzerland, 2015.
  19. G. Micale, A. Cipollina, L. Rizzuti, Seawater Desalination: Conventional and Renewable Energy Processes, Springer, Berlin, Heidelberg, 2009.
  20. M. A1-Shammiri, M. Safar, Multi-effect distillation plants: state of the art, Desalination, 126 (1999) 45–59.
  21. M.A. Darwish, F. Al-Juwayhel, H.K. Abdulraheim, Multieffect boiling systems from an energy viewpoint, Desalination, 194 (2006) 22–39.
  22. H.T. El-Dessouky, H.M. Ettouney, F. Mandani, Performance of parallel feed multiple effect evaporation system for seawater desalination, Appl. Therm. Eng., 20 (2000) 1676–1706.