References

  1. M.K. Wittholz, B.K. O’Neill, C.B. Colby, D. Lewis, Estimating the cost of desalination plants using a cost database, Desalination, 229 (2008) 10–20.
  2. S.A. Kalogirou, Seawater desalination using renewable energy sources, Prog. Energy Combust. Sci., 31 (2005) 242–281.
  3. E. Tzen, D. Theofilloyianakos, M. Sigalas, K. Karamanis, Design and development of a hybrid autonomous system for seawater desalination, Desalination, 166 (2004) 267–274.
  4. H. Chang, G.-B. Wang, Y.-H. Chen, C.-C. Li, C.-L. Chang, Modeling and optimization of a solar driven membrane distillation desalination system, Renewable Energy, 35 (2010) 2714–2722.
  5. M. Thomson, D. Infield, Laboratory demonstration of a photovoltaic-powered seawater reverse-osmosis system without batteries, Desalination, 183 (2005) 105–111.
  6. V.G. Gude, N. Nirmalakhandan, S. Deng, Renewable and sustainable approaches for desalination, Renewable Sustainable Energy Rev., 14 (2010) 2641–2654.
  7. J. Blanco, S. Malato, P. Fernández-Ibañez, D. Alarcón, W. Gernjak, M. Maldonado, Review of feasible solar energy applications to water processes, Renewable Sustainable Energy Rev., 13 (2009) 1437–1445.
  8. F. Banat, N. Jwaied, M. Rommel, J. Koschikowski, M. Wieghaus, Desalination by a “compact SMADES” autonomous solar powered membrane distillation unit, Desalination, 217 (2007) 29–37.
  9. M.R. Qtaishat, F. Banat, Desalination by solar powered membrane distillation systems, Desalination, 308 (2013) 186–197.
  10. G. Meindersma, C. Guijt, A. De Haan, Desalination and water recycling by air gap membrane distillation, Desalination, 187 (2006) 291–301.
  11. J.-P. Mericq, S. Laborie, C. Cabassud, Vacuum membrane distillation of seawater reverse osmosis brines, Water Res., 44 (2010) 5260–5273.
  12. Y.-H. Chen, Y.-W. Li, H. Chang, Optimal design and control of solar driven air gap membrane distillation desalination systems, Appl. Energy, 100 (2012) 193–204.
  13. H.E. Fath, S.M. Elsherbiny, A.A. Hassan, M. Rommel, M. Wieghaus, J. Koschikowski, M. Vatansever, PV and thermally driven small-scale, stand-alone solar desalination systems with very low maintenance needs, Desalination, 225 (2008) 58–69.
  14. J. Koschikowski, M. Wieghaus, M. Rommel, V.S. Ortin, B.P. Suarez, J.R.B. Rodríguez, Experimental investigations on solar driven stand-alone membrane distillation systems for remote areas, Desalination, 248 (2009) 125–131.
  15. E. Guillén-Burrieza, J. Blanco, G. Zaragoza, D.-C. Alarcón, P. Palenzuela, M. Ibarra, W. Gernjak, Experimental analysis of an air gap membrane distillation solar desalination pilot system, J. Membr. Sci., 379 (2011) 386–396.
  16. S.T. Bouguecha, S.E. Aly, M.H. Al-Beirutty, M.M. Hamdi, A. Boubakri, Solar driven DCMD: performance evaluation and thermal energy efficiency, Chem. Eng. Res. Des., 100 (2015) 331–340.
  17. J.-G. Lee, W.-S. Kim, J.-S. Choi, N. Ghaffour, Y.-D. Kim, Dynamic solar-powered multi-stage direct contact membrane distillation system: concept design, modeling and simulation, Desalination, 435 (2018) 278–292.
  18. R. Schwantes, A. Cipollina, F. Gross, J. Koschikowski, D. Pfeifle, M. Rolletschek, V. Subiela, Membrane distillation: solar and waste heat driven demonstration plants for desalination, Desalination, 323 (2013) 93–106.
  19. H.W. Chung, J. Swaminathan, D.M. Warsinger, Multistage vacuum membrane distillation (MSVMD) systems for high salinity applications, J. Membr. Sci., 497 (2016) 128–141.
  20. M. Khayet, Solar desalination by membrane distillation: dispersion in energy consumption analysis and water production costs (a review), Desalination, 308 (2013) 89–101.
  21. C.L. Ong, W. Escher, S. Paredes, A. Khalil, B. Michel, A novel concept of energy reuse from high concentration photovoltaic thermal (HCPVT) system for desalination, Desalination, 295 (2012) 70–81.
  22. K. Zhao, W. Heinzl, M. Wenzel, S. Büttner, F. Bollen, G. Lange, S. Heinzl, N. Sarda, Experimental study of the memsys vacuum multi-effect-membrane-distillation (V-MEMD) module, Desalination, 323 (2013) 150–160.
  23. G. Zaragoza, A. Ruiz-Aguirre, E. Guillén-Burrieza, Efficiency in the use of solar thermal energy of small membrane desalination systems for decentralized water production, Appl. Energy, 130 (2014) 491–499.
  24. E.S. Mohamed, P. Boutikos, E. Mathioulakis, V. Belessiotis, Experimental evaluation of the performance and energy efficiency of a vacuum multi-effect membrane distillation system, Desalination, 408 (2017) 70–80.
  25. P. Boutikos, E.S. Mohamed, E. Mathioulakis, V. Belessiotis, A theoretical approach of a vacuum multi-effect membrane distillation system, Desalination, 422 (2017) 25–41.
  26. J. Andrés-Mañas, L. Roca, A. Ruiz-Aguirre, F. Acién, J.D. Gil, G. Zaragoza, Application of solar energy to seawater desalination in a pilot system based on vacuum multi-effect membrane distillation, Appl. Energy, 258 (2020) 114068.
  27. J. Andrés-Mañas, A. Ruiz-Aguirre, F. Acién, G. Zaragoza, Assessment of a pilot system for seawater desalination based on vacuum multi-effect membrane distillation with enhanced heat recovery, Desalination, 443 (2018) 110–121.
  28. A. Chafidz, S. Al-Zahrani, M.N. Al-Otaibi, C.F. Hoong, T.F. Lai, M. Prabu, Portable and integrated solar-driven desalination system using membrane distillation for arid remote areas in Saudi Arabia, Desalination, 345 (2014) 36–49.
  29. Y. Wang, Z. Xu, N. Lior, H. Zeng, An experimental study of solar thermal vacuum membrane distillation desalination, Desal. Water Treat., 53 (2015) 887–897.
  30. A. Luo, N. Lior, Critical review of membrane distillation performance criteria, Desal. Water Treat., 57 (2016) 20093–20140.