References

  1. K. Sanjeev, G.N. Tiwari, Optimization of daily yield for an active double effect distillation with water flow, Energy Convers. Manage., 40 (1999) 703–715.
  2. B.I. Ismail, Design and performance of a transportable hemispherical solar still, Renewable Energy, 34 (2009) 145–150.
  3. J.A. Esfahani, V. Bordbar, Double diffusive natural convection heat transfer enhancement in a square enclosure using nanofluids, J. Nanotechnol. Eng. Med., 2 (2011) 021002–021009.
  4. P.K. Abdenacer, S. Nafila, Impact of temperature difference (water-solar collector) on solar-still global efficiency, Desalination, 209 (2007) 298–305.
  5. A.Z. Al-Garni, A.H. Kassem, F. Saeed, F. Ahmed, Effect of glass slope angle and water depth on productivity of double slope solar still, J. Sci. Ind. Res., 70 (2011) 884–890.
  6. V.K. Dwivedi, G.N. Tiwari, Comparison of internal heat transfer coefficients in passive solar stills by different thermal models: an experimental validation, Desalination, 246 (2009) 304–318.
  7. R. Bhardwaj, M.V. ten Kortenaar, R.F. Mudde, Maximized production of water by increasing area of condensation surface for solar distillation, Appl. Energy, 154 (2015) 480–490.
  8. A. Heydari, N. Rahbar, Energy and life cost analysis of a wet wall solar still with various pump working conditions, Environ. Prog. Sustainable Energy, 36 (2017) 532–538.
  9. E. Papanicolaou, V. Belessiotis, Patterns of double-diffusive natural convection with opposing buoyancy forces: comparative study in asymmetric trapezoidal and equivalent rectangular enclosures, J. Heat Transfer (ASME), 130 (2008) 092501–092514.
  10. E. Papanicolaou, V. Belessiotis, Double-diffusive natural convection in an asymmetric trapezoidal enclosure: unsteady behavior in the laminar and the turbulent-flow regime, Int. J. Heat Mass Transfer, 48 (2005) 191–209.
  11. S. Rashidi, M. Bovand, J.A. Esfahani, Optimization of partitioning inside a single slope solar still for performance improvement, Desalination, 395 (2016) 79–91.
  12. S. Rashidi, M. Bovand, N. Rahbar, J.A. Esfahani, Steps optimization and productivity enhancement in a nanofluid cascade solar still, Renewable Energy, 118 (2018) 536–545.
  13. E. Fotouhi-Bafghi, N. Rahbar, Productivity improvement of a tubular solar still, using CFD simulation, J. Model. Eng., 10 (2013) 37–48 (in Persian).
  14. N. Rahbar, J. Abolfazli Esfahani, E. Fotouhi-Bafghi, Estimation of convective heat transfer coefficient and water-productivity in a tubular solar still – CFD simulation and theoretical analysis, Sol. Energy, 113 (2015) 313–323.
  15. A. Ahsan, T. Fukuhara, Mass and heat transfer model of tubular solar still, Sol. Energy, 84 (2010) 1147–1156.
  16. A. Ahsan, K.M.S. Islam, T. Fukuhara, A.H. Ghazali, Experimental study on evaporation, condensation and production of a new tubular solar still, Desalination, 260 (2010) 172–179.
  17. S. Subhani, R. Senthil Kumar, Numerical investigation on influence of mounting baffles in solar stills, AIP Conf. Proc., 2161 (2019) 020025.
  18. N. Rahbar, A. Asadi, E. Fotouhi-Bafghi, Performance evaluation of two solar stills of different geometries: tubular versus triangular: experimental study, numerical simulation, and second law analysis, Desalination, 443 (2018) 44–55.
  19. N. Rahbar, J.A. Esfahani, Productivity estimation of a singleslope solar still: theoretical and numerical analysis, Energy, 49 (2013) 289–297.