1. S.K. Suraparaju, S.K. Natarajan, Performance analysis of single slope solar desalination setup with natural fiber, Desal. Water Treat., 193 (2020) 64–71.
  2. M.H. Amirkalaei, A. Khoshgard, H. Ahmadi-Danesh Ashtiani, R. Fazaeli, Investigation of the parameters influencing the evaporation rate of downward sprayed sea water in solar water desalination, Desal. Water Treat., 191 (2020) 64–71.
  3. K. Hardik Jani, V. Kalpesh Modi, Experimental performance evaluation of single basin dual slope solar still with circular and square cross-sectional hollow fins, Sol. Energy, 179 (2019) 186–194.
  4. P. Dumka, A. Sharma, Y. Kushwah, A.S. Raghav, D.R. Mishra, Performance evaluation of single slope solar still augmented with sand filled cotton bags, J. Energy Storage, 25 (2019) 100888, doi: 10.1016/j.est.2019.100888.
  5. A.F. Mohamed, A.A. Hegazi, G.I. Sultan, 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, Sol. Energy Mater. Sol. Cells, 200 (2019) 109958, doi: 10.1016/j.solmat.2019.109958
  6. V. Kalpesh Modi, H. Kuldeep Nayi, Efficacy of forced condensation and forced evaporation with thermal energy storage material on square pyramid solar still, Renewable Energy, 153 (2020) 1307–1319.
  7. E.M.S. El-Saida, S.M. Elshamy, A.E. Kabeel, Performance enhancement of a tubular solar still by utilizing wire mesh packing under harmonic motion, Desalination, 474 (2020) 114165, doi: 10.1016/j.desal.2019.114165.
  8. R. Dhivagar, S. Sundararaj, Thermodynamic and water analysis on augmentation of a solar still with copper tube heat exchange in coarse aggregate, J. Therm. Anal. Calorim., 136 (2019) 89–99.
  9. P. Zanganeh, A.S. Goharrizi, S. Ayatollahi, M. Feilizadeh, Productivity enhancement of solar stills by nano-coating of condensing surface, Desalination, 454 (2019) 1–9.
  10. A.E. Kabeel, M. Abdelgaied, A. Eisa, Effect of graphite mass concentrations in a mixture of graphite nanoparticles and paraffin wax as hybrid storage materials on performances of solar still, Renewable Energy, 132 (2019) 119–128.
  11. S.J.P. Gnanaraj, V. Velmurugan, An experimental study on the efficacy of modifications in enhancing the performance of single basin double slope solar still, Desalination, 467 (2019) 12–28.
  12. M. Sakthivel, S. Shanmugasundram, T. Alwarsamy, An experimental study on a regenerative solar still with energy storage medium – Jute cloth, Desalination, 264 (2010) 24–31.
  13. T.G. Sakthivel, T.V. Arjunan, Thermodynamic performance comparison of single slope solar stills with and without cotton cloth energy storage medium, J. Therm. Anal. Calorim., 137 (2019) 351–360.
  14. T.R.S. Kumar, S. Jegadheeswaran, P. Chandramohan, Performance investigation on fin tube solar still with paraffin wax as energy storage media, J. Therm. Anal. Calorim., 136 (2019) 101–112.
  15. A.A.M. Omara, A.A.A. Abuelnuor, H.A. Mohammed, M. Khiadani, Phase change materials (PCMs) for improving solar still productivity: a review, J. Therm. Anal. Calorim., 139 (2020) 1585–617.
  16. R. Dhivagar, S. Sundararaj, A review on methods of productivity improvement in solar desalination, Appl. Mech. Mater., 877 (2018) 414–429.
  17. S. Rashidi, N. Karimi, O. Mahian, A concise review on the role of nanoparticles upon the productivity of solar desalination systems, J. Therm. Anal. Calorim., 135 (2019) 1145–1159.
  18. A.E. Kabeel, A. Mohamed, M. Mahgoub, The performance of a modified solar still using hot air injection and PCM, Desalination, 379 (2016) 102–107.
  19. Y. Belyayev, M. Mohanraj, S. Jayaraj, A. Kaltayev, Thermal performance simulation of a heat pump asssited solar desalination system for Kazakhstan conditions, Heat Transfer Eng., 40 (2019) 1060–1072.
  20. K. Hidouri, R.B. Slama, S. Gabsi, Hybrid solar still by heat pump compression, Desalination, 250 (2010) 444–449.
  21. K. Hidouri, M. Mohanraj, Thermodynamic analysis of a heat pump assisted active solar still, Desal. Water Treat., 154 (2019) 101–110.
  22. H. Hassan, M.S. Yousef, M. Fathy, M. Salem Ahmed, Assessment of parabolic trough solar collector assisted solar still at various saline water mediums via energy, exergy, exergoeconomic, and enviroeconomic approaches, Renewable Energy, 155 (2020) 604–616.
  23. N. Rahbar, A. Gharaiian, S. Rashidi, Exergy and economic analysis for a double slope solar still equipped by thermoelectric heating modules - an experimental investigation, Desalination, 420 (2017) 106–113.
  24. S. Rashidi, N. Rahbar, M. Sadegh Valipour, J. Abolfazli Esfahani, Enhancement of solar still by reticular porous media: experimental investigation with exergy and economic analysis, Appl. Therm. Eng., 130 (2017) 1341–1348.
  25. C. Sasikumar, A.M. Manokar, M. Vimala, Experimental studies on passive inclined solar panel absorber solar still. J. Therm. Anal. Calorim., 139 (2020) 3649–3660.
  26. A.M. Manokar, M. Vimala, R. Sathyamurthy, Enhancement of potable water production from an inclined photovoltaic panel absorber solar still by integrating with flat-plate collector, Environ. Dev. Sustainability, 22 (2020) 4145–4167.
  27. S. Rashidi, J.A. Esfahani, N. Rahbar, Partitioning of solar still for performance recovery: experimental and numerical investigations with cost analysis, Sol. Energy, 153 (2017) 41–50.
  28. S. Rashidi, M. Bovand, J. Abolfazli Esfahani, Optimization of partitioning inside a single slope solar still for performance improvement, Desalination, 395 (2016) 79–91.
  29. A.A. El-Sebaii, A.A. Al-Ghamdi, F.S. Al-Hazmi, A.S. Faidah, Thermal performance of a single basin solar still with PCM as a storage medium, Appl. Energy, 86 (2009) 1187–1195.
  30. S. Rashidi, M. Bovand, J. Abolfazli Esfahani, Volume-of-fluid model for simulating vapor–liquid phase change in a solar still, J. Thermophys. Heat Transfer, 32 (2018) 1–7, doi: 10.2514/1.T5316.
  31. S. Rashidi, M. Bovand, N. Rahbar, J. Abolfazli Esfahani, Steps optimization and productivity enhancement in a nanofluid cascade solar still, Renewable Energy, 118 (2018) 536–545.
  32. A.M. Radhwan, Transient performance of stepped solar still with built-in latent heat thermal energy storage, Desalination, 171 (2004) 61–76.
  33. A.J. Chamkha, H.S. Takhar, V.M.Soundalgekar, Radiation effects on free convection flow past a semi-infinite vertical plate with mass transfer, Chem. Eng. J., 84 (2001) 335–342.
  34. H.M. Sadeghi, M. Babayan, A.J. Chamkha, Investigation of using multi-layer PCMs in the tubular heat exchanger with periodic heat transfer boundary condition, Int. J. Heat Mass Transfer, 147 (2020), doi: 10.1016/j.ijheatmasstransfer.2019.118970.
  35. A.J. Chamkha, Solar radiation assisted natural convection in uniform porous medium supported by a vertical flat plate, J. Heat Transfer, 119 (1997) 89–96.
  36. M.I. Ahmed, M. Hrairi, A.F. Ismail, On the characteristics of multistage evacuated solar distillation, Renewable Energy, 34 (2009) 1471–1478.
  37. 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.
  38. S. Rashidi, S. Akar, M. Bovand, R. Ellahi, Volume of fluid model to simulate the nanofluid flow and entropy generation in a single slope solar still, Renewable Energy, 115 (2018) 400–410.
  39. H.N. Panchal, N. Patel, ANSYS CFD and experimental comparison of various parameters of solar still, Int. J. Ambient Energy., 39 (2018) 551–557.
  40. V.R. Khare, A.P. Singh, H. Kumar, R. Khatri, Modelling and performance enhancement of single slope solar still using CFD, Energy Procedia, 109 (2017) 447–455.
  41. Y. Taamneh, Influence of Jordanian zeolite on the performance of a solar still: experiments and CFD simulation studies, Water Sci. Technol., 16 (2016) 1700–1709.
  42. R. Dhivagar, M. Mohanraj, K. Hidouri, Y. Belyayev, Energy, exergy, economic and enviro-economic (4E) analysis of gravel coarse aggregate sensible heat storage-assisted single-slope solar still, J. Therm. Anal. Calorim., (2020), doi: 10.1007/ s10973–020–09766-w.
  43. N. Setoodeh, R. Rahimi, A. Ameri, Modeling and determination of heat transfer coefficient in a basin solar still using CFD, Desalination, 268 (2011) 103–110.
  44. Z.H. Yousef, K.A. Mousa, Modeling and performance analysis of a regenerative solar desalination unit, Appl. Therm. Eng., 24 (2004) 1061–1072.
  45. K.K. Murugavel, S. Sivakumar, J. Riaz Ahamed, Kn.K.S.K. Chockalingam, K. Srithar, Single basin double slope solar still with minimum basin depth and energy storing materials, Appl. Energy, 87 (2010) 514–523.
  46. V. Velmurugan, C.K. Deenadayalan, H. Vinod, K. Srithar, Desalination of effluent using fin type solar still, Energy, 33 (2008) 1719–1727.
  47. T. Mahmood, M.Y. Naz, S.A. Sulaiman, Y. Jamil, S. Shukrullah, M. Zahid, M. Inayat, CFD modeling and experimental validation of a solar still, MATEC Web. Conf., 131 (2017) 02010, doi: 10.1051/matecconf/201713102010.
  48. M.S. Yousuf, H. Hassan, An experimental work on the performance of the single slope solar still incorporated with latent heat storage system in hot climate conditions, J. Cleaner Prod., 209 (2019) 1396–1410.
  49. A.K. Raj, M. Srinivas, CFD modeling of macro-encapsulated latent heat stoarge system used for solar heating application, Int. J. Therm. Sci., 139 (2019) 88–104.
  50. H.N. Panchal, P.K. Shah, Modelling and verification of single slope solar still using ANSYS-CFX, Int. J. Energy Environ., 2 (2011) 985–998.