References

  1. N. Tiwari, H.P. Garg, Studies on various designs of solar desalination systems, Sol. Energy Wind Technol., 1 (1985) 61–265.
  2. P.I. Cooper, The maximum efficiency of single – effect solar stills, Sol. Energy, 15 (1972) 205–217.
  3. G.N. Tiwari, N.K. Dhiman, Performance study of a high temperature distillation system, Energy Convers. Manage., 32 (1991) 283–291.
  4. A. Agrawal, R.S. Rana, P.K. Srivastava, Heat transfer coefficients and productivity of a single slope single basin solar still in Indian climatic condition: experimental and theoretical comparison, Resour.-Effic. Technol., 3 (2017) 466–482.
  5. M. Al-Harrahsheh, M. Abu-Arabi, H. Mousa, Z. Al-Zghoul, Solar desalination using solar still enhanced by an external solar collector and PCM, Appl. Therm. Eng., 138 (2018) 1030–1040.
  6. M. Asbik, O. Ansari, A. Bah, N. Zari, A. Mimet, H. El-Ghetany, Exergy analysis of solar desalination still combined with a heat storage system using phase change material (PCM), Desalination, 381 (2016) 26–37.
  7. H. Mousa, M. Abu Arabi, Desalination and hot water production using solar still enhanced by an external solar collector, Desal. Water Treat., 51 (2013) 1296–1301.
  8. M.M. Morad, H.A.M. El-Maghawry, K.I. Wasfy, Improving the double slope solar still performance by using a flat-plate solar collector and cooling glass cover, Desalination, 373 (2015) 1–9.
  9. A. Mahmoud, H. Fath, M. Ahmed, Enhancing the performance of a solar-driven hybrid solar still/humidification–dehumidification desalination system integrated with a solar concentrator and photovoltaic panels, Desalination, 430 (2018) 165–179.
  10. Q. Ma, A. Ahmadi, C. Cabassud, Direct integration of a vacuum membrane distillation module within a solar collector for small-scale units adapted to seawater desalination in remote places: design, modeling and evaluation of a flat-plate equipment, J. Membr. Sci., 564 (2018) 617–633.
  11. G.O. Prado, L.G. Martins Vieira, J.J.R. Damasceno, Solar dish concentrator for desalted water, Sol. Energy, 136 (2016) 659–667.
  12. Murugavel, K. Kalidasa, K. Srithar, Performance study on basin type double slope solar still with different wick materials and minimum mass of water, Renewable Energy, 36 (2011) 612–620.
  13. G.B. Abdelaziz, E.M.S. El-Said, M.A. Dahab, M.A. Omara, S.W. Sharshir, Hybrid solar desalination systems review, Energy Sources Part A, (2021) 1–31.
  14. J. Madiouli, A. Lashin, I. Shigidi, I.A. Badruddin, A. Kessentini, Experimental study and evaluation of single slope solar still combined with a flat plate collector, parabolic trough and packed bed, Sol. Energy,196 (2020) 358–366.
  15. C.K. Sivakumar, Y. Robinson, Effect of wind on performance of double slope solar desalination still for fresh water production, Sustainability, 10 (2022) 48–52.
  16. M. Bhargva, A. Yadav, Effect of shading and evaporative cooling of glass cover on the performance of evacuated tubeaugmented solar still, Environ. Dev. Sustainability, 22 (2020) 4125–4143.
  17. C.K. Sivakumar, Y. Robinson, K. Saravanakumar, Effect of glass thickness on performance of double slope inward solar desalination still for fresh water production, Sustainability, 10 (2022) 63–68.
  18. H.R. Goshayeshi, M.R. Safaei, Effect of absorber plate surface shape and glass cover inclination angle on the performance of a passive solar still, Int. J. Numer. Methods Heat Fluid Flow, 30 (2019) 3183–3198.
  19. A.S. Isah, H.B. Takaijudin, B.S.M. Singh, S. Ihstam, U.I.H. Gilani, K.W. Yusof, A.S. Abdurrasheed, T.O. Abimbola, M.M. Shoeb, Solar energy desalination distillate yield and cost evolution and statistical relationship between meteorological variables and distillate yield, Sol. Energy, 266 (2022) 256–272.
  20. P. Prakash, Performance study of solar stills with various absorbing materials and a sensible heat storage medium, Therm. Sci., 20 (2016) S947–S953.
  21. P. Azaria, A.M. Lavasania, N. Rahbarb, M.E. Yazdi, The effect of air flow on solar stills performance: a review, Desal. Water Treat., 256 (2022) 1–17.
  22. W. Peng, A. Maleki, M.A. Rosen, P. Azarikhah, Optimization of a hybrid system for solar-wind-based water desalination by reverse osmosis: comparison of approaches, Desalination, 442 (2018) 16–31.
  23. M. Sajjad, M.G. Rasul, Simulation and optimization of solar desalination plant using Aspen Plus Simulation Software, Procedia Eng., 105 (2015) 739–750.
  24. B. Du, J. Gao, L. Zeng, X. Su, X. Zhang, S. Yu, H. Ma, Area optimization of solar collectors for adsorption desalination, Sol. Energy, 157 (2017) 298–308.
  25. F. Marechal, E. Aoustin, P. Bréant, Multi-objective optimization of RO desalination plants, Desalination, 222 (2008) 96–118.
  26. S. Hou, S. Ye, H. Zhang, Performance optimization of the solar humidification–dehumidification desalination process using Pinch technology, Desalination, 183 (2005) 143–149.
  27. G. Alonso, E. del Valle, J.R. Ramirez, Optimization Methods for Desalination in Nuclear Power Plants, Woodhead Publishing, 2020, pp. 67–76.
  28. S.J.P. Gnanaraj, M.G.L. Annaamalai, Enhancing solar still productivity by optimising operational parameters, Desal. Water Treat., 254 (2022) 1–14.
  29. S.J.P. Gnanaraj, S. Ramach Andran, R. Anbazhagan, Performance of a double-slope solar still with external modifications, Desal. Water Treat., 67 (2017) 16–27.
  30. A.E. Kabeel, S.W. Sharshir, G.B. Abdelaziz, M.A. Halim, A. Swidan, Improving performance of tubular solar stills by controlling the water depth and cover cooling, J. Cleaner Prod., 233 (2019) 848–856.
  31. E. El-Bialy, S.M. Shalaby, A.E. Kabeel, A.M. Fathy, Cost analysis for several solar desalination systems, Desalination, 384 (2016) 12–30.
  32. J.P. Gnanaraj, V. Velmurugan, An experimental investigation to optimize the production of single and stepped basin solar stills-a Taguchi approach, Energy Sources Part A, (2020) 1–24.