References

  1. A. Mallik, Md. A. Arefin, Clean water: design of an efficient and feasible water treatment plant for rural South-Bengal, J. Mech. Eng. Res Develop., 41(2018) 156–167.
  2. A.E. Kabeel, EM.S. El-Said, Water production for irrigation and drinking needs in remote arid communities using closedsystem greenhouse: A review, Eng. Sci. Technol., 18 (2) (2015) 294–301.
  3. A.E. Kabeel, M. Abdelgaied and E.M.S. El-Said, Study of a solar-driven membrane distillation system: evaporative cooling effect on performance enhancement, Renew. Energy 106 (2017) 192–200.
  4. B. Bouchekima, Solar desalination plant for small size use in remote arid areas of South Algeria for the production of drinking water, Desalination, 156 (2003) 353–354.
  5. B. Bouchekima, A small solar desalination plant for the production of drinking water in remote arid areas of southern Algeria, Desalination, 159 (2003) 197–204.
  6. B. Bouchekima, A solar desalination plant for domestic water needs in arid areas of South Algeria, Desalination, 153 (2003) 65–69.
  7. H. Tanaka, Y Nakatake, Increase in distillate productivity by inclining the flat plate external reflector of a tilted-wick solar still in winter, Sol Energy, 83 (2009) 785–9.
  8. R. Balan, J. Chandrasekaran, S. Shanmugan, B. Janarthanan and S. Kumar, Reviews on passive solar distillation, Desal. Water Treat., 28 (2011) 217–238.
  9. Z.M. Omara, A.E. Kabeel, A.S. Abdullah and F.A. Essa, Experimental investigation of corrugated absorber solar still with wick and reflectors, Desalination, 381 (2016) 111–6.
  10. A.E. Kabeel and E.M.S. El-Said, Development strategies and solar thermal energy utilization for water desalination systems in remote regions: a review, Desal. Water Treat., 1 (2013) 1–18.
  11. A.E. Kabeel and E.M.S. El-Said, Technological aspects of advancement in low capacity solar thermal desalination units, Int. J. Sustain. Energy, 32 (5) (2013) 315–332.
  12. A.F. Al-Hamadani, S.K.Shukla, Water Distillation Using Solar Energy System with Lauric Acid as Storage Medium, 1 (2011) 1–8.
  13. H.N. Panchal, Enhancement of distillate output of double basin solar still with vacuum tubes, J. King Saud Univ. Eng. Sci. 2013,
  14. T. Rajaseenivasan, P.N. Raja and K. Srithar, An experimental investigation on a solar still with an integrated flat plate collector, Desalination, 347 (2014) 131–137.
  15. A. Khechekhouche, A. Boukhari, Z. Driss, N. Benhissen, Seasonal effect on solar distillation in the El-Oued region of southeast Algeria, Int. J.Energetica, 2 (2017) 42–45
  16. A. Khechekhouche, B. Boubaker, M. Manokar, R.Sathyamurthy, A.E.Kabeel. Exploitation of an insulated air chamber as a glazed cover of a conventional solar still.Heat Transfer - Asian Res., 48 (2019) 1563–1574.
  17. B. Gupta, R. Sharma, P. Shankar, P. Baredar, Performance enhancement of modified solar still using water sprinkler: An experimental approach, Perspect. Sci., 8 (2016) 191–194.
  18. Y. El-Samadony, A.E.Kabeel, Theoretical estimation of the optimum glass cover water film cooling parameters combinations of a stepped solar still, Energy, 68 (2014) 744–750.
  19. A.A.K. Al-Waeli, K.H.M. Al-Asadi, Enhancing the productivity of a single slope solar water distiller by cooling the transparent cover, Scholars Bulletin, 2018.
  20. R. Gugulothu, N. S. Somanchi, K. V. K. Reddy, D. Gantha, A review on solar water distillation using sensible and latent heat, Procedia Earth Planet. Sci., 11 (2015) 354–360.
  21. C.D. Park, B.J. Lim, Y.D. Noh, S.S. Lee, K.Y. Chung, Parametric performance test of distiller utilizing solar and waste heat, Desal. Water Treat., 55 (2015) 3303–3309.
  22. H. Al-Hinai, M.S. Al-Nassri, B.A. Jubran, Effect of climatic, design and operational parameters onthe yield of a simple solar still, Energy Convers. Manage., 43 (2002) 1639–1650.
  23. A.E. Kabeel, G.B. Abdelaziz and E.M.S. El-Said, Experimental investigation of a solar still with composite material heat storage: Energy, exergy and economic analysis, J. Cleaner Prod., 231 (2019) 21- 34.
  24. H.N. Panchal, N. Patel, ANSYS CFD and experimental comparison of various parameters of a solar still, Int. J.Amb. Energy, 39 (2018) 551–557.
  25. A.Khechekhouche, B. Benhaoua, A. E. Kabeel, M. H. Attia, W. M. El-Maghlany, Improvement of solar distiller productivity by a black metallic plate of zinc as a thermal storage material, J. Testing Eval., 49 (2019) in press.
  26. N. Smakdji, A. Kaabi, B. Lips, Optimization and modeling of a solar still with heat storage, Desal. Water Treat., 52 (2014) 1761–1769.
  27. A.E. Kabeel, S.A. El-Agouz, T. Arunkumar, R.Sathyamurthy, Enhancing the performance of single slope solar still using jute cloth knitted with sand heat energy storage. 20th International Water Technology Conference, IWTC20. 2017.
  28. Z.M. Omara., A.E Kabeel, M.M. Younes. Enhancing the stepped solar still performance using external reflectors, Energy Convers. Manage. 78 (2014), 876–881.
  29. Elango T, Kannan A, KalidasaMurugavel K. Performance study on single basin single slope solar still with different water nanofluids. Desalination,360 (2015) 45–51.
  30. Z.M. Omaraa, A.E. Kabeel, A.S. Abdullah. A review of solar still performance with reflectors. Renew. Sustain. Energy Rev., 68 (2017) 638–649
  31. H. Tanaka, Y. Nakatake, Improvement of the tilted wick solar still by using a flat plate reflector. Desalination,216 (2007) 139–46.
  32. H. Tanaka, Tilted wick solar still with external flat plate reflector: optimum inclination of still and reflector, Desalination, 249 (2009) 411–5.
  33. L. Achour, M.Bouharkat, O. Assas, O. Behar, Hybrid model for estimating monthly global solar radiation for the Southern of Algeria: Case study: Tamanrasset, Algeria. Energy 135 (2017) 526–539.
  34. M. Nia, M. Chegaar, M.F. Benatallah, M. Aillerie, Contribution to the Quantification of Solar Radiation in Algeria, Terra Green 13 International Conference 2013-Advancements in Renewable Energy and Clean Environment. Energyprocedia 2013.
  35. S.M. Elshamy and E.M.S. El-Said, Comparative study based on thermal, exergetic and economic analyses of a tubular solar still with semi-circular corrugated absorber, J. Cleaner Prod. 195 (2018) 328–339.
  36. A.E. Kabeel, T.M. Abouelmaaty and EM.S. El-Said, Economic analysis of a small-scale hybrid air humidification and dehumidification-water flashing evaporation (HDH-SSF) desalination plant, Energy 53 (2013) 306–311.
  37. A.F. Mohamed, A.A. Hegazi, G.I. Sultan and E.M.S. El-Said, Enhancement of a solar still performance by inclusion the basalt stones as a porous sensible absorber: experimental study and thermo-economic analysis, Solar Energy Mater. Solar Cells, 200 (2019) 109958.