References

  1. Y.N. Chen, W.H. Li, Y.P. Chen, H.F. Zhang, Water Resources and Ecological Problems in Tarim River Basin, Xinjiang, China, Water and Environmental Management, IWA Publishing, London, 2003, pp. 3–12.
  2. Y.N. Chen, K. Takeuchi, C.C. Xu, Y.P. Chen, Z.X. Xu, Regional climate change and its effects on river runoff in the Tarim Basin, China, Hydrol. Processes, 20 (2006) 2207–2216.
  3. A. Al-Karaghouli, D. Renne, L.L. Kazmerski, Solar and wind opportunities for water desalination in the Arab regions, Renew. Sustain. Energy Rev., 13 (2009) 2397–2407.
  4. World Health Organization, Guidelines for Drinking-Water Quality, Vol. 38, 1996, pp. 104–108.
  5. S. Kumar, G. Tiwari, Life cycle cost analysis of single slope hybrid (PV/T) active solar still, Appl. Energy, 86 (2009) 1995–2004.
  6. S. El-Haggar, A. Awn, Optimum conditions for a solar still and its use for a greenhouse using the nutrient film technique, Desalination, 94 (1993) 55–68.
  7. S. Abdallah, O. Badran, Sun tracking system for productivity enhancement of solar still, Desalination, 220 (2008) 669–676.
  8. H. Al-Hinai, M. Al-Nassri, B. Jubran, Effect of climatic, design and operational parameters on the yield of a simple solar still, Energy Convers. Manage., 43 (2002) 1639–1650.
  9. Y.F. Nassar, S.A. Yousif, A.A. Salem, The second generation of the solar desalination systems, Desalination, 209 (2007) 177–181.
  10. S. Al-Kharabsheh, D. Goswami, Experimental study of an innovative solar water desalination system utilizing a passive vacuum technique, Sol. Energy, 75 (2003) 395–401.
  11. H. Tanaka, Y. Nakatake, Improvement of the tilted wick solar still by using a flat plate reflector, Desalination, 216 (2007) 139–146.
  12. 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) 785–789.
  13. H. Tanaka, Tilted wick solar still with external flat plate reflector: optimum inclination of still and reflector, Desalination, 249 (2009) 411–415.
  14. A. E1-Bahi, D. Inan, A solar still with minimum inclination, coupled to an outside condenser, Desalination, 123 (1999) 79–83.
  15. S. Shanmugan, P. Rajamohan, D. Mutharasu, Performance study on an acrylic mirror boosted solar distillation unit utilizing seawater, Desalination, 230 (2008) 281–287.
  16. S.K. Pankaj, S.K. Agrawal, Experimental and theoretical analysis of single sloped basin type solar still consisting of multiple low thermal inertia floating porous absorbers, Desalination, 311 (2013) 198–205.
  17. B. Selva Kumar, S. Kumar, R. Jayaprakash, Performance analysis of a V type solar still using a charcoal absorber and a boosting mirror, Desalination, 229 (2008) 217–230.
  18. R. Dev, S.A. Abdul-Wahab, G.N. Tiwari, Performance study of the inverted absorber solar still with water depth and total dissolved solid, Appl. Energy, 88 (2011) 252–264.
  19. A.Z. Al-Garni, Effect of external reflectors on the productivity of solar still during winter, J. Energy Eng., 140 (2013) 04013002.
  20. Z.M. Omara., A.E. Kabeel, M.M. Younes, Enhancing the stepped solar still performance using internal and external reflectors, Energy Convers. Manage., 78 (2014) 876–881.
  21. Y.A.F. El-Samadony, A.S. Abdullah, Z.M. Omara, Experimental study of stepped solar still integrated with reflectors and external condenser, Exp. Heat Transfer, 28 (2015) 392–394.
  22. H. Tanaka, Experimental study of a basin type solar still with internal and external reflectors in winter, Desalination, 249 (2009) 130–134.
  23. H. Tanaka, Y. Nakatake, Theoretical analysis of a basin type solar still with internal and external reflectors, Desalination, 197 (2006) 205–216.
  24. H. Tanaka, Effect of inclination of external reflector of basin type still in summer, Desalination, 242 (2009) 205–214.
  25. A.J.N. Khalifa, H.A. Ibrahim, Effect of inclination of the external reflector on the performance of a basin type solar still at various seasons, Energy Sustain. Dev., 13 (2009) 244–249.
  26. A.J.N. Khalifa, H.A. Ibrahim, Effect of inclination of the external reflector of simple solar still in winter: an experimental investigation for different cover angles, Desalination, 264 (2010) 129–133.
  27. M. Boubekri, A. Chaker, Yield of an improved solar still: numerical approach, Energy Procedia, 6 (2011) 610–617.
  28. P. Monowe, M. Masale, N. Nijegorodov, V. Vasilenko, A portable single-basin solar still with an external reflecting booster and an outside condenser, Desalination, 280 (2011) 332–338.
  29. G. Wu, H.F. Zheng, X.L. Ma, C. Kutlu, Y.H. Su, Experimental investigation of a multi-stage humidification-dehumidification desalination system heated directly by a cylindrical Fresnel lens solar concentrator, Energy Convers. Manage., 143 (2017) 241–251.
  30. P. Simoni, T. Xavier, K. Peter, S. Christopher, Theoretical and experimental analysis of an innovative dual-axis tracking linear Fresnel lenses concentrated solar thermal collector, Sol. Energy, 153 (2017) 679–690.
  31. A. Fernández-García, E. Zarza, L. Valenzuela, M. Pérez, Parabolic-trough solar collectors and their applications, Renew. Sustain. Energy Rev., 14 (2010) 1695–1721.
  32. W.T. Xie, Y.J. Dai, R.Z. Wang, K. Sumathy, Concentrated solar energy applications using Fresnel lenses: a review, Renew. Sustain. Energy Rev., 15 (2011) 2588–2606.
  33. E. Delyannis, Historic background of desalination and renewable energies, Sol. Energy, 75 (2003) 357–366.
  34. Z. Sun, S. Fang, Z. Li, Lens type four side condensing heat evaporator: China, CN201510384568.2 [P], 2015 (in Chinese).
  35. G.B.J. de Boer, C. de Weerd, D. Thoenes, H.W.J. Goossens, Laser diffraction spectrometry: Fraunhofer diffraction versus Mie scattering, Part. Part. Syst. Char., 4 (1987) 14–19.
  36. H. Tanaka, Monthly optimum inclination of glass cover and external reflector of a basin type solar still with internal and external reflector, Sol. Energy, 84 (2010) 1959–1966.
  37. A.J.N. Khalifa, On the effect of cover tilt angle of the simple solar still on its productivity in different seasons and latitudes, Energy Convers. Manage., 52 (2011) 431–436.
  38. H.N. Singh, G.N. Tiwari, Monthly performance of passive and active solar stills for different Indian climatic conditions, Desalination, 168 (2004) 145–150.
  39. B.A. Akash, M.S. Mohsen, W. Nayfeh, Experimental study of the basin type solar still under local climatic conditions, Energy Convers. Manage., 41 (2000) 883–890.
  40. K.B. Baibutaev, B.M. Achilov, Comparative testing of a solar distiller, Appl. Sol. Energy, 4 (1968) 69–72.
  41. K.B. Baibutaev, B.M. Achilov, Effect of the inclination of the transparent solar still surface on the condensation and collection processes, Appl. Sol. Energy, 6 (1970) 34–38.
  42. H. Al-Hinai, M.S. Al-Nassri, B.A. Jubran, Effect of climatic, design and operational parameters on the yield of a simple solar still, Energy Convers. Manage., 43 (2002) 1639–1650.
  43. M. Abd Elkader, An investigation of the parameters involved in simple solar still with inclined yute, Renew. Energy, 14 (1998) 333–338.
  44. A. Omri, J. Orfi, S. Ben Nasrallah, Natural convection effects in solar stills, Desalination, 183 (2005) 173–178.
  45. A.J.N. Khalifa, A.M. Hammod, Experimental validation and enhancement of some solar still performance correlations, Desal. Water Treat., 4 (2009) 311–315.
  46. H. Aybar, H. Assefi, Simulation of a solar still to investigate water depth and glass angle, Desal. Water Treat., 7 (2009) 35–40.
  47. H.E.S. Fath, M. El-Samanoudy, K. Fahmy, A. Hassabou, Thermal-economic analysis and comparison between pyramid shaped and single-slope solar still configurations, Desalination, 159 (2003) 69–79.
  48. J. Govind, G.N. Tiwari, Economic analysis of some solar energy systems, Energy Convers. Manage., 24 (1984) 131–135.