References

  1. A. Giwa, H. Fath, S.W. Hasan, Humidification–dehumidification desalination process driven by photovoltaic thermal energy recovery (PV-HDH) for small-scale sustainable water and power production, Desalination, 377 (2016) 163–171.
  2. A. Abusharkh, A. Giwa, S. Hasan, Wind and geothermal energy in desalination: A short review on progress and sustainable commercial processes, Ind. Eng. Manag., 4 (2015) 175.
  3. S. Jamaly, A. Giwa, S.W. Hasan, Recent improvements in oily wastewater treatment: Progress, challenges, and future opportunities, J. Environ. Sci., 37 (2015) 15–30.
  4. S. Daer, J. Kharraz, A. Giwa, S.W. Hasan, Recent applications of nanomaterials in water desalination: A critical review and future opportunities, Desalination, 367 (2015) 37–48.
  5. N. Akther, A. Sodiq, A. Giwa, S. Daer, H.A. Arafat, S.W. Hasan, Recent advancements in forward osmosis desalination: A review, Chem. Eng. J., 281 (2015) 502–522.
  6. A. Giwa, S.W. Hasan, Theoretical investigation of the influence of operating conditions on the treatment performance of an electrically-induced membrane bioreactor, J. Water Process Eng., 6 (2015) 72–82.
  7. A. Giwa, I. Ahmed, S.W. Hasan, Enhanced sludge properties and distribution study of sludge components in electrically-enhanced membrane bioreactor, J. Environ. Manage., 159 (2015) 78–85.
  8. A. Giwa, S.W. Hasan, Numerical modeling of an electrically enhanced membrane bioreactor (MBER) treating medium-strength wastewater, J. Environ. Manage., 164 (2015) 1–9.
  9. M. Zeyoudi, E. Altenaiji, L.Y. Ozer, I. Ahmed, A.F. Yousef, S.W. Hasan, Impact of continuous and intermittent supply of electric field on the function and microbial community of wastewater treatment electro-bioreactors, Electrochim. Acta., (2015).
  10. D.M. Warsinger, J. Swaminathan, E. Guillen-Burrieza, H. A. Arafat, J.H. Lienhard, Scaling and fouling in membrane distillation for desalination applications: A review, Desalination, 356 (2014) 294–313.
  11. A. Giwa, N. Akther, A. Al Housani, S. Haris, S.W. Hasan, Recent advances in humidification dehumidification (HDH) desalination processes: Improved designs and productivity, Renew. Sustain. Energy Rev., 57 (2016) 929–944.
  12. Y. Zhang, Y. Peng, S. Ji, Z. Li, P. Chen, Review of thermal efficiency and heat recycling in membrane distillation processes, Desalination, 367 (2015) 223–239.
  13. E. Drioli, A. Ali, F. Macedonio, Membrane distillation: Recent developments and perspectives, Desalination, 356 (2015) 56–84.
  14. G.W. Meindersma, C.M. Guijt, A.B. De Haan, Desalination and water recycling by air gap membrane distillation, Desalination, 187 (2006) 291–301.
  15. M.A.E.R. Abu-Zeid, Y. Zhang, H. Dong, L. Zhang, H.L. Chen, L. Hou, A comprehensive review of vacuum membrane distillation technique, Desalination, 356 (2015) 1–14.
  16. M. Khayet, Solar desalination by membrane distillation: Dispersion in energy consumption analysis and water production costs (a review), Desalination, 308 (2013) 89–101.
  17. M.R. Qtaishat, F. Banat, Desalination by solar powered membrane distillation systems, Desalination, 308 (2013) 186–197.
  18. A. Alkhudhiri, N. Darwish, N. Hilal, Membrane distillation: A comprehensive review, Desalination, 287 (2012) 2–18.
  19. L.M. Camacho, L. Dumée, J. Zhang, J. De Li, M. Duke, J. Gomez, et al., Advances in membrane distillation for water desalination and purification applications, Water (Switzerland), 5 (2013) 94–196.
  20. M. Khayet, C. Cojocaru, C. Garcia-Payo, Application of response surface methodology and experimental design in direct contact membrane distillation, Ind. Eng. Chem. Res., 46 (2007) 5673–5685 ST–Application of response surface me.
  21. A.M. Alklaibi, N. Lior, Heat and mass transfer resistance analysis of membrane distillation, J. Membr. Sci., 282 (2006) 362– 369.
  22. A.M. Alklaibi, N. Lior, Comparative study of direct-contact and air-gap membrane distillation processes, Ind. Eng. Chem. Res., 46 (2007) 584–590.
  23. A.M. Alklaibi, N. Lior, Transport analysis of air-gap membrane distillation, J. Memb. Sci., 255 (2005) 239–253.
  24. O.K. Buros, The ABCs of Desalting, 2nd ed., International Desalination Association, (2000).
  25. G. Burgess, K. Lovegrove, Solar thermal powered desalination: Membrane versus distillation technologies, In: 43rd Conf. Aust. New Zeal. Sol. Energy Soc., Dunedin, New Zealand, (2005).
  26. H.T. El-Dessouky, H.M. Ettouney, Fundamentals of Salt Water Desalination, 2002.
  27. A.M. El-Nashar, The economic feasibility of small solar MED seawater desalination plants for remote arid areas, Desalination, 134 (2001) 173–186.
  28. P. Sharan, S. Bandyopadhyay, Energy optimization in parallel/cross feed multiple-effect evaporator based desalination system, Energy, 111 (2016) 756–767.
  29. S. Chung, C.D. Seo, H. Lee, J.H. Choi, J. Chung, Design strategy for networking membrane module and heat exchanger for direct contact membrane distillation process in seawater desalination, Desalination, 349 (2014) 126–135.
  30. H. Chang, C.L. Chang, C.Y. Hung, T.W. Cheng, C.D. Ho, Optimization study of small-scale solar membrane distillation desalination systems (s-SMDDS), Int. J. Environ. Res. Public Health, 11 (2014) 12064–12087.
  31. S. Lin, N.Y. Yip, M. Elimelech, Direct contact membrane distillation with heat recovery: Thermodynamic insights from module scale modeling, J. Membr. Sci., 453 (2014) 498–515.
  32. J. Zuo, S. Bonyadi, T.S. Chung, Exploring the potential of commercial polyethylene membranes for desalination by membrane distillation, J. Membr. Sci., 497 (2016) 239–247.
  33. B.B. Ashoor, S. Mansour, A. Giwa, V. Dufour, S.W. Hasan, Principles and applications of direct contact membrane distillation (DCMD): A comprehensive review, Desalination, 398 (2016) 222–246.
  34. G. Chen, Y. Lu, W.B. Krantz, R. Wang, A.G. Fane, Optimization of operating conditions for a continuous membrane distillation crystallization process with zero salty water discharge, J. Membr. Sci., 450 (2014) 1–11.
  35. H.C. Duong, P. Cooper, B. Nelemans, T.Y. Cath, L.D. Nghiem, Optimising thermal efficiency of direct contact membrane distillation by brine recycling for small-scale seawater desalination, Desalination, 374 (2015) 1–9.
  36. J. Minier-Matar, A. Hussain, A. Janson, F. Benyahia, S. Adham, Field evaluation of membrane distillation technologies for desalination of highly saline brines, Desalination, 351 (2014) 101–108.
  37. C.D. Ho, C.H. Huang, F.C. Tsai, W.T. Chen, Performance improvement on distillate flux of countercurrent-flow direct contact membrane distillation systems, Desalination, 338 (2014) 26–32.
  38. G. Guan, X. Yang, R. Wang, A.G. Fane, Evaluation of heat utilization in membrane distillation desalination system integrated with heat recovery, Desalination, 366 (2015) 80–93.
  39. T.Y. Cath, V.D. Adams, A.E. Childress, Experimental study of desalination using direct contact membrane distillation: A new approach to flux enhancement, J. Membr. Sci., 228 (2004) 5–16.
  40. G. Zuo, R. Wang, R. Field, A.G. Fane, Energy efficiency evaluation and economic analyses of direct contact membrane distillation system using Aspen Plus, Desalination, 283 (2011) 237–244.
  41. V.A. Bui, L.T.T. Vu, M.H. Nguyen, Simulation and optimisation of direct contact membrane distillation for energy efficiency, Desalination, 259 (2010) 29–37.
  42. K. Mistry, J. Lienhard, An economics-based second law efficiency, Entropy, 15 (2013) 2736–2765.