References

  1. G.N. Tiwari, Solar Energy Fundamentals, Design Modelling and Applications, Narosa Publishing House, New Delhi, 2002.
  2. G.N. Tiwari, A.K. Tiwari, Solar Distillation Practice for Water Desalination Systems, Anamaya Publications, New Delhi, 2007.
  3. G. Frick, J. von Sommerfeld, Solar stills of inclined evaporating cloth, Sol. Energy, 14 (1973) 427–431.
  4. M.S. Sodha, A. Kumar, G.N. Tiwari, R.S. Tyagi, Simple multiple wick solar still: analysis and performance, Sol. Energy, 26 (1981) 127–131.
  5. G.N. Tiwari, S.B. Sharma, M.S. Sodha, Performance of a double condensing multiple wick solar still, Energy Convers. Manage., 24 (1984) 155–159.
  6. A.E. Kabeel, Performance of solar still with a concave wick evaporation surface, Energy, 34 (2009) 1504–1509.
  7. M.Z. Khan, Diffusion of single-effect vertical solar still fixed with inclined wick still: an experimental study, Fuel, 329 (2022) 125502, doi: 10.1016/j.fuel.2022.125502.
  8. H. Tanaka, T. Nosoko, T. Nagata, Experimental study of basin-type, multiple-effect, diffusion-coupled solar still, Desalination, 150 (2002) 131–144.
  9. B.-J. Lim, S.-M. Choi, S.-H. Cho, G.-R. Lee, C.-D. Park, Designs and performance analysis of vertical multi-effect diffusion solar distiller: a review, Desalination, 527 (2022) 115572, doi: 10.1016/j.desal.2022.115572.
  10. M. Kudret Selçuk, Design and performance evaluation of a multiple-effect, tilted solar distillation unit, Sol. Energy, 8 (1964) 23–30.
  11. H. Tanaka, Theoretical analysis of a vertical multiple-effect diffusion solar still coupled with a tilted wick still, Desalination, 377 (2016) 65–72.
  12. T. Arunkumar, R. Jayaprakash, D. Denkenberger, A. Ahsan, M.S. Okundamiya, S. Kumar, H. Tanaka, H.S. Aybar, An experimental study on a hemispherical solar still, Desalination, 286 (2012) 342–348.
  13. K.V. Modi, K.H. Nayi, S.S. Sharma, Influence of water mass on the performance of spherical basin solar still integrated with parabolic reflector, Groundwater Sustainable Dev., 10 (2020) 100299, doi: 10.1016/j.gsd.2019.100299.
  14. R. Sathyamurthy, H.J. Kennady, P.K. Nagarajan, A. Ahsan, Factors affecting the performance of triangular pyramid solar still, Desalination, 344 (2014) 383–390.
  15. G.S. Dhindsa, M.K. Mittal, Experimental study of basin type vertical multiple effect diffusion solar still integrated with mini solar pond to generate nocturnal distillate, Energy Convers. Manage., 165 (2018) 669–680.
  16. A.A. El-Sebaii, M.R.I. Ramadan, S. Aboul-Enein, N. Salem, Thermal performance of a single-basin solar still integrated with a shallow solar pond, Energy Convers. Manage., 49 (2018) 2839–2848.
  17. M. Appadurai, V. Velmurugan, Performance analysis of fin type solar still integrated with fin type mini solar pond, Sustainable Energy Technol. Assess., 9 (2015) 30–36.
  18. A. Somwanshi, A.K. Tiwari, Performance enhancement of a single basin solar still with flow of water from an air cooler on the cover, Desalination, 352 (2014) 92–102.
  19. A. Rahmani, A. Boutriaa, Numerical and experimental study of a passive solar still integrated with an external condenser, Int. J. Hydrogen Energy, 42 (2017) 29047–29055.
  20. F. Mahmood, T. Al-Ansari, Design and analysis of a renewable energy driven greenhouse integrated with a solar still for arid climates, Energy Convers. Manage., 258 (2022) 115512, doi: 10.1016/j.enconman.2022.115512.
  21. G.K. Sharma, A. Mallick, R.K. Sharma, N. Kumar, D.B. Singh, A comprehensive study on the effect of variation of flow rate of fluid and N on energy metrics of N similar photovoltaic thermal flat plate collectors integrated single slope solar still, Desal. Water Treat., 283 (2023) 97–108.
  22. D. Kumar, R.K. Sharma, D.B. Singh, Effects of dissimilarity of water depth on energy and exergy efficiencies and productivity of single slope solar still coupled to evacuated tubular collectors, Desal. Water Treat., 278 (2022) 301–310.
  23. D. Kumar, R.K. Sharma, S.K. Sharma, V.K. Dwivedi, S. Tiwari, D.B. Singh, Influence of dissimilarity of water depth on performance of N alike photovoltaic thermal flat plate collectors included with double slope solar still: a comparative study, Desal. Water Treat., 273 (2022) 13–33.
  24. G.K. Sharma, A. Mallick, R.K. Sharma, R. Dobriyal, N. Kumar, D.B. Singh, An investigation on dissimilarity of mass flow rate and N on exergo-enviro-economic parameters for solar still of single slope type integrated with N similar PVT flat plate collectors having series connection, Environ. Sci. Pollut. Res., 29 (2022) 65842–65859.
  25. V. Singh, R. Kumar, R.K. Sharma, S.P. Singh, H. Sinhmar, D.B Singh, An investigation on effect of variation of mass flow rate and number of collectors on yearly efficiency of single slope solar still by incorporating N similar photovoltaic thermal flat plate collectors, Water Supply, 22 (2022) 5126–5148.
  26. D. Kumar, R.K. Sharma, D.B. Singh, Effect of the variation of a mass-flow-rate and a number of collectors on the performance of an active solar still, Desal. Water Treat., 248 (2022) 1–17.
  27. R.K. Yadav, M. Kumar, J. Singh, D.B. Singh, N. Kumar, Effects of the dissimilarity of water depth on energy and exergy efficiencies and productivity of solar energy, Int. J. Exergy, 38 (2022) 333–345.
  28. V. Singh, R. Kumar, D.B Singh, An investigation on effect of dissimilarity of mass flow rate on hourly, daily and annual efficiencies of double slope type solar still included with N similar PVT compound parabolic concentrators, Desal. Water Treat., 246 (2022) 36–53.
  29. D.B. Singh, D. Kumar, R.K. Yadav, S.K. Sharma, Y. Chaturbedi, N. Kumar, V.K. Dwivedi, An investigation of effect of mass flow rate variation on productivity, exergoeconomic and enviroeconomic parameters of N similar PVTCPCs included with double slope solar still, Desal. Water Treat., 243 (2021) 1–17.
  30. D.B. Singh, R.K. Yadav, Y. Chaturbedi, M. Kumar, G.K. Sharma, N. Kumar, Study on effect of dissimilarity of mass flow rate on energy metrics of solar energy-based double slope water purifier by incorporating N alike PVT compound parabolic concentrator collectors, Desal. Water Treat., 231 (2021) 27–43.
  31. D.B. Singh, A. Raturi, N. Kumar, A. Nirala, A.K. Singh, S. Tiwari, Effect of flow of fluid mass per unit time on life cycle conversion efficiency of single slope solar desalination unit coupled with N identical evacuated tubular collectors, Mater. Today Proc., 28 (2020) 2096–2100.
  32. D.B. Singh, K. Navneet, Harender, K. Satish, S.K. Sharma, M. Ashis, Effect of depth of water on various efficiencies and productivity of N identical partially covered PVT collectors incorporated single slope solar distiller unit, Desal. Water Treat., 138 (2019) 99–112.
  33. S. Kumar, G.N. Tiwari, H.N. Singh, Annual performance of an active solar distillation system, Desalination, 127 (2000) 79–88.
  34. T. Rajaseenivasan, P. Nelson Raja, K. Srithar, An experimental investigation on a solar still with an integrated flat plate collector, Desalination, 347 (2014) 131–137.
  35. A.H. Mohammed, A.N. Shmroukh, N.M. Ghazaly, A.E. Kabeel, Active solar still with solar concentrating systems, review, J. Therm. Anal. Calorim., 148 (2023) 8777–8792.
  36. A.E. Kabeel, M. Abdelgaied, Observational study of modified solar still coupled with oil serpentine loop from cylindrical parabolic concentrator and phase changing material under basin, Sol. Energy, 144 (2017) 71–78.
  37. A.E. Kabeel, M.M. Khairat Dawood, K. Ramzy, T. Nabil, B. Elnaghi, A. Elkassar, Enhancement of single solar still integrated with solar dishes: an experimental approach, Energy Convers. Manage., 196 (2019) 165–174.
  38. S. Kumar, A. Dubey, G.N. Tiwari, A solar still augmented with an evacuated tube collector in forced mode, Desalination, 347 (2014) 15–24.
  39. M.S. Sodha, S.S. Mathur, M.A.S. Malik, Review of Renewable Energy Resources Vol-1, Wiley Eastern Limited, New Delhi, 1983.
  40. B.Y.H. Liu, R.C. Jordan, Daily insolation on surfaces tilted towards equator, ASHRAE Trans., 3 (1961) 526–541.