References

  1. S.W. Sharshir, G. Peng, L. Wu, N. Yang, F.A. Essa, A.H. Elsheikh, Showgi I.T. Mohamed, A.E. Kabeel, Enhancing the solar still performance using nanofluids and glass cover cooling: experimental study, Appl. Therm. Eng., 113 (2017) 684–693.
  2. A.E. Kabeel, Z.M. Omara, F.A. Essa, Numerical investigation of modified solar still using nanofluids and external condenser, J. Taiwan Inst. Chem. Eng., 75 (2017) 77–86.
  3. M.T. Chaichan, H.A. Kazem, Using aluminium powder with PCM (paraffin wax) to enhance single slope solar water distillation productivity in Baghdad–Iraq winter weathers, Int. J. Renewable Energy Res., 5 (2015) 251–257.
  4. A.E. Kabeel, S.A. El-Agouz, R. Sathyamurthy, T. Arunkumar, Augmenting the productivity of solar still using jute cloth knitted with sand heat energy storage, Desalination, 443 (2018) 122–129.
  5. H.N. Panchal, P. Shah, Effect of varying glass cover thickness on performance of solar still: in a winter climate conditions, Int. J. Renewable Energy Res., 1 (2012) 212–223.
  6. J. Xiong, G. Xie, H. Zheng, Experimental and numerical study on a new multi-effect solar still with enhanced condensation surface, Energy Convers. Manage., 73 (2013) 176–185.
  7. A. Abdessemed, C. Bougriou, D. Guerraiche, R. Abachi, Effects of tray shape of a multi-stage solar still coupled to a parabolic concentrating solar collector in Algeria, Renewable Energy, 132 (2019) 1134–1140.
  8. H.B. Halima, N. Frikha, R.B. Slama, Numerical investigation of a simple solar still coupled to a compression heat pump, Desalination, 337 (2014) 60–66.
  9. K. Hidouri, D.R. Mishra, A. Benhmidene, B. Chaouachi, Experimental and theoretical evaluation of a hybrid solar still integrated with an air compressor using ANN, Desal. Water Treat., 88 (2017) 52–59.
  10. M.M. Morad, H.A. El-Maghawry, K.I. Wasfy, Improving the double slope solar still performance by using flat-plate solar collector and cooling glass cover, Desalination, 373 (2015) 1–9.
  11. R.V. Dunkle, Solar Water Distillation: the Roof Type Still and a Multiple Effect Diffusion Still, Proceedings of the International Heat Transfer Conference, University of Colorado, USA, 1961, p. 895.
  12. M. Jakob, P.C. Gupta, The evaporation of liquid into a gas, Chem. Eng. Process, 50 (1954) 15.
  13. B.F. Sharpley, L.M.K. Boelter, Evaporation of water into quiet air from a one-foot diameter surface, Ind. Eng. Chem., 30 (1938) 1125–1131.
  14. K. Hidouri, S. Gabsi, Correlation for Lewis number for evaluation of mass flow rate for simple/hybrid solar still, Desal. Water Treat., 57 (2016) 6209–6216.
  15. P. Dumka, D.R. Mishra, Energy and exergy analysis of conventional and modified solar still integrated with sand bed earth: study of heat and mass transfer, Desalination, 437 (2018) 15–25.
  16. A.F. Mohamed, A.A. Hegazi, G.I. Sultan, E.M. El-Said, Augmented heat and mass transfer effect on performance of a solar still using porous absorber: experimental investigation and exergetic analysis, Appl. Therm. Eng., 150 (2019) 1206–1215.
  17. B. Jamil, N. Akhtar, Effect of specific height on the performance of a single slope solar still: an experimental study, Desalination, 414 (2017) 73–88.
  18. M.K. Phadatare, S.K. Verma, Effect of cover materials on heat and mass transfer coefficients in a plastic solar still, Desal. Water Treat., 2 (2009) 254–259.
  19. R. Bhardwaj, M. Ten Kortenaar, R. Mudde, Influence of condensation surface on solar distillation, Desalination, 326 (2013) 37–45.
  20. Z. Hongfei, Z. Xiaoyan, Z. Jing, W. Yuyuan, A group of improved heat and mass transfer correlations in solar stills, Energy Convers. Manage., 43 (2002) 2469–2478.
  21. H. Al-Hinai, M.S. Al-Nassri, B.A. Jubran, Parametric investigation of a double-effect solar still in comparison with a single-effect solar still, Desalination, 150 (2002) 75–83.
  22. H.Ş. Aybar, H. Assefi, Simulation of a solar still to investigate water depth and glass angle, Desal. Water Treat., 7 (2009) 35–40.
  23. M. Abu-Arabi, Y. Zurigat, H. Al-Hinai, S. Al-Hiddabi, Modeling and performance analysis of a solar desalination unit with double-glass cover cooling, Desalination, 143 (2002) 173–182.
  24. Y.H. Zurigat, M.K. Abu-Arabi, Modelling and performance analysis of a regenerative solar desalination unit, Appl. Therm. Eng., 24 (2004) 1061–1072.
  25. G. Menguy, M. Schwartz, Le Rayonnement Solaire Conversion Thermique et Application, Tec et Doc, Paris, 1980.
  26. A. Madhlopa, C. Johnstone, Numerical study of a passive solar still with separate condenser, Renewable Energy, 34 (2009) 1668–1677.
  27. O.O. Badran, M.M. Abu-Khader, Evaluating thermal performance of a single slope solar still, Heat Mass Trans., 43 (2007) 985–995.
  28. B.J. Briscoe, K.P. Galvin, The effect of surface fog on the transmittance of light, Solar Energy, 46 (1991) 191–197.