References

  1. A. Delyannis, E. Delyannis, Recent solar distillation developments, Desalination, 45 (1983) 361–369.
  2. H. Song, Y. Liu, M.H. Singer, C. Li, A. R. Cheney, D. Ji, L. Zhou, N. Zhang, X. Zeng, Z. Bei, Z. Yu, S. Jiang, Q. Gan, Cold vapor generation beyond the input solar energy limit, Adv. Sci., 5 (2018) 1–8.
  3. E. Matcher, Could This Low-Cost Device Provide Clean Drinking Water To Those in Need?, Smithsonian Magazine, 2018. Available at: https://www.smithsonianmag.com/innovation/could-this-low-cost-device-provide-clean-drinkingwater- to-those-in-need-180969100 (accessed April 03, 2019).
  4. F. Robert, Sunlight-Powered Purifier Could Clean Water for the Impoverished, Science, 2017. Available at: http://www. sciencemag.org/news/2017/02/sunlight-powered-purifiercould-clean-water-impoverished (accessed June 09, 2019).
  5. UNISDR – United Nations Office for Disaster Risk Reduction, Annual Report 2011, United Nations, Geneva, 2011.
  6. K. Jijakli, H. Arafat, S. Kennedy, P. Mande, V.V. Theeyattuparampli, How green solar desalination really is? Environmental assessment using life-cycle analysis (LCA) approach, Desalination, 287 (2012) 123–131.
  7. P.T. Tsilingiris, Combined heat and mass transfer analyses in solar distillation systems - The restrictive conditions and a validity range investigation, Solar Energy, 86 (2012) 3288–3300.
  8. B.I. Ismail, Design and performance of a transportable hemispherical solar still, Energy, 34 (2009) 145–150.
  9. C. Reichardt, Experimental and Quasi-Experimental Designs for Generalized Casual Inference, Houghton Mifflin, Boston, MA, 2002.
  10. A. Bhar, Empirical Research: Definition, Methods, Types and Examples, QuestionPro. Available at: https://www.questionpro. com/blog/empirical-research/ (accessed June 13, 2018).
  11. G.N. Tiwari, Solar Energy Fundamentals, Design, Modelling and Applications, Harosa Publishing House Private Limited, New Delhi, 2002.
  12. K. Otto, K. Wood, Product Design, Techniques in Reverse Engineering and New Product Development, Prentice Hall, New Jersey, 2001.
  13. P. Kalita, A. Dewan, S. Borah, A review on recent developments in solar distillation units, Sadhana, 41 (2016) 203–223.
  14. K. Kalidasa Murugavel, K. Chockalingam, K. Srithar, Progresses in improving the effectiveness of the single basin passive solar still, Desalination, 220 (2008) 677–686.
  15. A.N. Minasian, A.A. Al-Karaghouli, A floating-wick type solar still, Renewable Energy, 6 (1995) 77–79.
  16. C. Li, G.P. Peterson, Y. Wang, Evaporation/boiling on thin capillary wick (I): thickness effects, J. Heat Transfer, 128 (2006) 1312–1319.
  17. A.K. Tiwari, G.N. Tiwari, Effect of the condensing cover’s slope on internal heat and mass transfer and mass transfer in distillation: an indoor simulation, Desalination, 180 (2005) 73–88.
  18. J.G. Modi, K.V. Modi, A review on solar still augmented with wick materials, Int. J. Adv. Res. Innovative Ideas Educ., 3 (2017) 3737–4720.
  19. Y. Ho-Ming, C. Lie-Cheng, The effects of climatic, design and operational parameters on the performance of wick type solar distillers, Energy Convers. Manage., 26 (1986) 175–180.
  20. S.H. Sengar, A.G. Mohod, Y.P. Khandetod, S.P. Modak, D. K. Gupta, Design and development of wick type solar distillation systems, J. Soil Sci. Environ. Manage., 2 (2011) 125–133.
  21. J.T. Mahdi, B.E. Smith, A.O. Sharif, An experimental wick-type solar still system: design and construction, Desalination, 267 (2011) 233–328.
  22. V. Velmurugan, M. Gopalakrishnan, R. Raghu, K. Srithar, Single basin solar still with fin for enhancing productivity, Energy Convers. Manage., 49 (2008) 2602–2608.
  23. Continental Steel and Tube Company, Stainless Steel Grades, 2019. Available at: https://continentalsteel.com/stainless-steel/ grades/ (accessed February 04, 2019).
  24. L. Zhejun, S. Haomin, J. Dengxin, L. Chenyu, C. Alec, L. Youhai, Z. Nan, Z. Xie, C. Borui, G. Jun, L. Yuedheng, L. Xiang, A. Diana, J. Suhua, Y. Zogfu, G. Qiaoqiang, Extremely cost-effective and efficient solar vapour generation under nonconcentrated illumination using thermally isolated black paper, Global Challenges, 1 (2017) 1–10, doi: 10.1002/gch2.201600003.
  25. Landfall Navigation, Landfall Navigation Aquamate Solar Still. Available at: http://www.landfallnavigation.com/memss.html (accessed February 23, 2018).
  26. P. Refalo, R. Ghirlando, S. Abela, The use of a solar chimney and condensers to enhance the productivity of a solar still, Desal. Water Treat., 57 (2016) 23024–23037.
  27. P. Refalo, R. Ghirlando, S. Abela, Temperature Measurement in Solar Thermal Applications, Proceeding of International Solar World Congress, Kassel, Germany, 2011.
  28. P. Refalo, Innovative Approaches to Solar Distillation, Faculty of Engineering, University of Malta, 2015.
  29. J. Lindblom, Solar Thermal Technologies for Seawater Desalination: State of the Art, Lyngby, Ed., Solar Energy: State of the Art, Danmarkks Tekniske Universitet, Denmark, 2003, pp. 93–108.
  30. M.A. Samee, U.K. Mirzza, T. Majeed, N. Ahmad, Design and performance of a single basin solar still, Renewable Sustainable Energy Rev., 11 (2007) 543–549.