References

  1. A. Chafidz, E.D. Kerme, I. Wazeer, Y. Khalid, A. Ajbar, S.M. Al-Zahrani, Design and fabrication of a portable and hybrid solar-powered membrane distillation system, J. Cleaner Prod., 133 (2016) 631–647.
  2. GWI, IDA Desalination Yearbook - 2015-2016, 2016. Available at: http://idadesal.org/.
  3. H.T. El-Dessouky, H.M. Ettouney, Fundamentals of Salt Water Desalination, Elsevier, 2002.
  4. A.E. Kabeel, M. Abdelgaied, A. Eisa, Enhancing the performance of single basin solar still using high thermal conductivity sensible storage materials, J. Cleaner Prod., 183 (2018) 20–25.
  5. 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, Renew. Sustain. Energy Rev., 14 (2010) 1187–1201.
  6. R. Tripathi, G. Tiwari, Effect of water depth on internal heat and mass transfer for active solar distillation, Desalination, 173 (2005) 187–200.
  7. G. Wu, C. Kutlu, H. Zheng, Y. Su, D. Cui, A study on the maximum gained output ratio of single-effect solar humidification- dehumidification desalination, Sol. Energy, 157 (2017) 1–9.
  8. R. Santosh, T. Arunkumar, R. Velraj, G. Kumaresan, Technological advancements in solar energy driven humidificationdehumidification desalination systems - a review, J. Cleaner Prod., 207 (2019) 826–845.
  9. F.A. Al-Sulaiman, M.I. Zubair, M. Atif, P. Gandhidasan, S.A. Al-Dini, M.A. Antar, Humidification dehumidification desalination system using parabolic trough solar air collector, Appl. Therm. Eng., 75 (2015) 809–816.
  10. A.H.M.A. Hassabou, Experimental and Numerical Analysis of a PCM-Supported Humidification-Dehumidification Solar Desalination System, Technische Universität München, 2011.
  11. X. Huang, Y. Li, T. Ke, X. Ling, W. Liu, Thermal investigation and performance analysis of a novel evaporation system based on a humidification-dehumidification process, Energy Convers. Manage., 147 (2017) 108–119.
  12. J. Wang, N. Gao, Y. Deng, Y. Li, Solar power-driven humidification–dehumidification (HDH) process for desalination of brackish water, Desalination, 305 (2012) 17–23.
  13. P. Byrne, L. Fournaison, A. Delahaye, Y. Ait Oumeziane, L. Serres, P. Loulergue, A. Szymczyk, D. Mugnier, J.-L. Malaval, R. Bourdais, H. Gueguen, O. Sow, J. Orfi, T. Mare, A review on the coupling of cooling, desalination and solar photovoltaic systems, Renew. Sustain. Energy Rev., 47 (2015) 703–717.
  14. Y. Kim, T. Seo, Thermal performances comparisons of the glass evacuated tube solar collectors with shapes of absorber tube, Renew. Energy, 32 (2007) 772–795.
  15. K.C. Ng, C. Yap, T.H. Khor, Outdoor Testing of Evacuated- Tube Heat-Pipe Solar Collectors, in Proc. Inst. Mech. Eng. Part E J. Process Mech. Eng., 2000, pp. 23–30.
  16. C. Yildirim, I. Solmuş, A parametric study on a humidificationdehumidification (HDH) desalination unit powered by solar air and water heaters, Energy Convers. Manage., 86 (2014) 568–575.
  17. M.A. Elkader, A. Aref, G.H. Moustafa, Y. Elhenawy, A theoretical and experimental study for a humidification-dehumidification (HD) solar desalination unit, Int. J. Water Resour. Arid Environ., 3 (2014) 108–120.
  18. A.E. Kabeel, E.M.S. El-Said, A hybrid solar desalination system of air humidification–dehumidification and water flashing evaporation: Part I. A numerical investigation, Desalination, 320 (2013) 56–72.
  19. A.E. Kabeel, E.M.S. El-Said, A hybrid solar desalination system of air humidification, dehumidification and water flashing evaporation: Part II. Experimental investigation, Desalination, 341 (2014) 50–60.
  20. A.E. Kabeel, E.M.S. El-said, A hybrid solar desalination system ofair humidification dehumidification and water flashing evaporation: a comparison among different configuration, Desalination, 330 (2013) 79–89.
  21. T. Rajaseenivasan, K. Srithar, Potential of a dual purpose solar collector on humidification dehumidification desalination system, Desalination, 404 (2017) 35–40.
  22. A.E. Kabeel, M.H. Hamed, Z.M. Omara, S.W. Sharshir, Experimental study of a humidification-dehumidification solar technique by natural and forced air circulation, Energy, 68 (2014) 218–228.
  23. M.H. Hamed, A.E. Kabeel, Z.M. Omara, S.W. Sharshir, Mathematical and experimental investigation of a solar humidification– dehumidification desalination unit, Desalination, 358 (2015) 9–17.
  24. A.A. Al-Farayedhi, N.I. Ibrahim, P. Gandhidasan, Condensate as a water source from vapor compression systems in hot and humid regions, Desalination, 349 (2014) 60–67.
  25. H. Xu, Y. Zhao, T. Jia, Y.J. Dai, Experimental investigation on a solar assisted heat pump desalination system with humidification-dehumidification, Desalination, 437 (2018) 89–99.
  26. D. Lawal, M. Antar, A. Khalifa, S. Zubair, F. Al-sulaiman, Humidification-dehumidification desalination system operated by a heat pump, Energy Convers. Manage., 161 (2018) 128–140.
  27. H. Zhang, J. Baeyens, G. Cáceres, J. Degrève, Y. Lv, Thermal energy storage: recent developments and practical aspects, Prog. Energy Combust. Sci., 53 (2016) 1–40.
  28. J.A. Duffie, W.A. Beckman, Solar Engineering of Thermal Processes, 4th ed., John Wiley & Sons, 2013.
  29. A.A. Shabaneh, P. Gandhidasan, M.A. Antar, H. Baig, Simulation of HDH Desalination System Using Tilted, Two-Pass Solar Air Heater, in: Fifteenth International Water Technology Conference, 2011.
  30. E.K. Summers, M.A. Antar, J.H. Lienhard, Design and optimization of an air heating solar collector with integrated phase change material energy storage for use in humidification– dehumidification desalination, Sol. Energy, 86 (2012) 3417–3429.
  31. S. Xu, X. Ling, H. Peng, Experimental of New Thermal Storage in a Desalination System, Appl. Mech. Mater., 143–144 (2011) 531–535.
  32. Z. Wang, F. Qiu, W. Yang, X. Zhao, Applications of solar water heating system with phase change material, Renew. Sustain. Energy Rev., 52 (2015) 645–652.
  33. O. Miyatake, Y. Koito, K. Tagawa, Y. Maruta, Transient characteristics and performance of a novel desalination system based on heat storage and spray flashing, Desalination, 137 (2001) 157–166.
  34. S.M. Shalaby, M.A. Bek, A.E. Kabeel, Design Recommendations for Humidification-dehumidification Solar Water Desalination Systems, Energy Procedia, 107 (2017) 270–274.
  35. H. Müller-Holst, M. Engelhardt, W. Schölkopf, Small-scale thermal seawater desalination simulation and optimization of system design, Desalination, 122 (1999) 255–262.
  36. H. Muller-Holst, M. Engelhardt, M. Herve, W. Schijlkopf, Solar thermal sea water desalination systems for decentralised use, Renew. Energy, 14 (1998) 311–318.
  37. K.M. Abd El-Aziz, J. Kim, K. Hamza, M. El Morsi, A.O. Nassef, S.M. Metwalli, K. Saitou, Cost Optimization of a Solar Humidification- Dehumidification Desalination System Augmented by Thermal Energy Storage, in: ASME International Design Engineering Techical Conferences & Computers and Information in Engineering Conference, 2015, p. V02AT03A026. http://dx.doi.org/10.1115/DETC2015-46785.
  38. K. Srithar, T. Rajaseenivasan, Recent fresh water augmentation techniques in solar still and HDH desalination – a review, Renew. Sustain. Energy Rev., 82 (2018) 629–644.
  39. M.I. Zubair, Thermal and Economical Analysis of HDH Systems Driven by Solar Thermal Energy with a Storage Option, King Fahd University of Petroleum and Minerals, 2015. Available at: http://eprints.kfupm.edu.sa/139813/1/Thesis_-_M.I._Zubair_g201303430.pdf.
  40. M.I. Zubair, F.A. Al-sulaiman, M.A. Antar, S.A. Al-dini, N.I. Ibrahim, Performance and cost assessment of solar driven humidification dehumidification desalination system, Energy Convers. Manage., 132 (2017) 28–39.
  41. C. Yıldırım, İ. Solmuş, A parametric study on a humidification–dehumidification (HDH) desalination unit powered by solar air and water heaters, Energy Convers. Manage., 86 (2014) 568–575.
  42. E. Deniz, S. Çınar, Energy, exergy, economic and environmental (4E) analysis of a solar desalination system with humidification-dehumidification, Energy Convers. Manage., 126 (2016) 12–19.
  43. M.H. Sharqawy, M.A. Antar, S.M. Zubair, A.M. Elbashir, Optimum thermal design of humidification dehumidification desalination systems, Desalination, 349 (2014) 10–21.
  44. F. Jafarkazemi, H. Abdi, Evacuated tube solar heat pipe collector model and associated tests, J. Renew. Sustain. Energy, 4 (2012).
  45. Apricus, Product Catalog 2012 Sustainable Hot Water Solutions, 2012.
  46. Apricus 2015, Evacuated Tube Solar Collector, (n.d.). Available at: http://www.apricus.com/upload/userfiles/downloads/ETC_Collector_Overview_Int.pdf (Accessed 31 August 2016).
  47. G.P. Narayan, M.H. Sharqawy, J.H. Lienhard V, S.M. Zubair, Thermodynamic analysis of humidification dehumidification desalination cycles, Desal. Wat. Treat., 16 (2010) 339–353.
  48. B. Rahimi, J. May, A. Christ, K. Regenauer-Lieb, H.T. Chua, Thermo-economic analysis of two novel low grade sensible heat driven desalination processes, Desalination, 365 (2015) 316–328.
  49. A.M. Eltamaly, M.A. Mohamed, A.I. Alolah, A novel smart grid theory for optimal sizing of hybrid renewable energy systems, Sol. Energy, 124 (2016) 26–38.
  50. M.A. Mohamed, A.M. Eltamaly, A.I. Alolah, Swarm intelligencebased optimization of grid-dependent hybrid renewable energy systems, Renew. Sustain. Energy Rev., 77 (2017) 515–524.