References

  1. A. Kettab, Les ressources en eau en Algérie: stratégies, enjeux et vision, Desalination, 136 (2001) 25–33.
  2. A.A. Abufayed, M.K.A. Elghuel, M. Rashed, Desalination: a viable supplemental source of water for the arid states of North Africa, Desalination, 152 (2003) 75–81.
  3. A. Pugsley, A. Zacharopoulos, J. Deb Mondol, M. Smyth, Global applicability of solar desalination, Renewable Energy, 88 (2016) 200–219.
  4. E.E. Delyannis, V. Belessiotis, Solar application in desalination: the Greek Islands experiment, Desalination, 100 (1995) 27–34.
  5. N. Ghaffour, V.K. Reddy, M. Abu-Arabi, Technology development and application of solar energy in desalination: MEDRC contribution, Renewable Sustainable Energy Rev., 15 (2011) 4410–4415.
  6. L. Garcia-Rodriguez, Seawater desalination driven by renewable energies: a review, Desalination, 143 (2002) 103–113.
  7. G. Yuan, H. Zhang, Mathematical modeling of a closed circulation solar desalination unit with humidification– dehumidification, Desalination, 205 (2007) 156–162.
  8. J. Orfi, M. Laplante, H. Marmouch, N. Galanis, B. Benhamou, S. Ben Nasrallah, C.T. Nguyen, Experimental and theoretical study of a humidification dehumidification water desalination system using solar energy, Desalination, 168 (2004) 151–159.
  9. A.S. Nafey, H.E.S. Fath, S.O. El-Helaby, A.M. Soliman, Solar desalination using humidification dehumidification processes. Part I. A numerical investigation, Energy Convers. Manage., 45 (2004) 1243–1261.
  10. T. Tahri, M. Douani, M. Amoura, A. Bettahar, Study of influence of operational parameters on the mass condensate flux in the condenser of seawater greenhouse at Muscat, Oman, Desal. Water Treat, 57 (2016) 13930–13937.
  11. K. Zhani, H. Ben Bacha, Experimental investigation of a new solar desalination prototype using the humidification dehumidification principle, Renewable Energy, 35 (2010) 2610–2617.
  12. K. Zhani, Solar desalination based on multiple effect humidification process: thermal performance and experimental validation, Renewable Sustainable Energy Rev., 24 (2013) 406–417.
  13. K. Zhani, H. Ben Bacha, T. Damak, Modeling and experimental validation of a humidification–dehumidification desalination unit solar part, Energy, 36 (2011) 3159–3169.
  14. S. Saidi, R. Ben Radhia, B. Dhifaoui, S. Ben Jabrallah, Experimental study of the inclined solar film evaporator, Desal. Water Treat, 56 (2014) 2576–2583.
  15. S. Saidi, R. Ben Radhia, B. Benhamou, N. Nafiri, S. Ben Jabrallah, Experimental investigation of a solar powered humidification– dehumidification desalination unit, Desal. Water Treat., 62 (2017) 1–10.
  16. S. Saidi, R. Ben Radhia, B. Benhamou, N. Nafiri, S. Ben Jabrallah, Numerical study of a solar desalination system by humidification–dehumidification, MATEC Web Conf., 330 (2020) 01045.
  17. J. Lindblom, B. Nordell, Water production by underground condensation of humid air, Desalination, 189 (2006) 248–260.
  18. J. Lindblom, B. Nordell, Underground condensation of humid air for drinking water production and subsurface irrigation, Desalination, 203 (2007) 417–434.
  19. V. Okati, S. Farsadd, Analysis of a solar desalinator (humidification–dehumidification cycle) including a compound system consisting of a solar humidifier and subsurface condenser using DoE, Desalination, 397 (2016) 9–21.
  20. V. Okati, S. Farsad, Numerical analysis of an integrated desalination unit using humidification dehumidification and subsurface condensation processes, Desalination, 433 (2017) 172–185.
  21. A.S. Nafey, H.E.S. Fath, S.O. El-Helaby, A.M. Soliman, Solar desalination using humidification–dehumidification processes. Part II. An experimental investigation, Energy Convers. Manage., 45 (2004) 1263–1277.
  22. S. Ben Jabrallah, A. Belghith, J.P. Corriou, Etude des transferts couple´s de matie`re et de chaleur dans une cavite´ rectangulaire: application a` une cellule de distillation (Study of coupled heat and mass transfer in a rectangular cavity: application to a distillation cell), Int. J. Heat Mass Transfer, 45 (2002) 891–904.
  23. A.S. Cherif, M.A. Kassim, B. Benhamou, S. Harmand, J.P. Corriou, S. Ben Jabrallah, Experimental and numerical study of mixed convection heat and mass transfer in a vertical channel with film evaporation, Int. J. Therm. Sci., 50 (2011) 942–953.
  24. R. Ben Radhia, J.P. Corriou, S. Harmand, S. Ben Jabrallah, Numerical study of evaporation in a vertical annulus heated at the inner wall, Int. J. Therm. Sci., 50 (2011) 1996–2005.
  25. J.H. Wang, N. Gao, Y. Deng, Y. Li, Solar power-driven humidification–dehumidification (HDH) process for desalination of brackish water, Desalination, 305 (2012) 17–23.
  26. N.K. Nawayseh, M.M. Farld, A.A. Omar, S.M. Al-Hallaj, A.R. Tamimi, A simulation study to improve the performance of a solar humidification–dehumidification desalination unit constructed in Jordan, Desalination, 109 (1997) 277–284.
  27. J. Koschikowski, M. Wieghaus, M. Rommel, Solar thermaldriven desalination plants based on membrane distillation, Desalination, 156 (2003) 295–304.
  28. G. Al-Enezi, H. Ettouney, N. Fawzy, Low temperature humidification dehumidification desalination process, Energy Convers. Manage., 47, (2006), 470–484.
  29. C. Khelif, B. Touati, Characterization of a greenhouse distiller, Rev. Renewable Energy, 1 (1998) 99–108.
  30. M. Zerrouki, N. Settou, Y. Marif, M.M. Belhadj, Simulation study of a capillary film solar still coupled with a conventional solar still in south Algeria, Energy Convers. Manage., 85 (2014) 112–119.
  31. G.P. Narayan, M.G.S. John, S.M. Zubair, J.H. Lienhard, Thermal design of the humidification dehumidification desalination system: an experimental investigation, Int. J. Heat Mass Transfer, 58 (2013) 740–748.
  32. G.P. Narayan, M.H. Sharqawy, E.K. Summers, J.H. Lienhard, S.M. Zubair, M.A. Antar, The potential of solar-driven humidification–dehumidification desalination for small-scale decentralized water production, Renewable Sustainable Energy Rev., 14 (2010) 1187–1201.