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Effect of Water Depth and Temperature on the Productivity of a Double Slope Solar Still

Received: 20 November 2014     Accepted: 9 December 2014     Published: 12 January 2015
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Abstract

Drinkable water is a basic necessity for humanity, and the increase in human population growth has led to water pollution to the surface and underground water reservoirs. In order to meet the increasing demand for potable water, researchers have developed various technologies to meet this target. Solar distillation is a technology suitable for producing distilled water from brackish water. This is achieved by the use of a solar still. A solar still is a simple solar device used in converting salt/brackish water into potable water. In this research, the productivity of water by a double slope solar still was determined by varying the water depth and surrounding temperature for nine days in the premises of Lagos State University, Ojo, Nigeria at 6.5oN, 3.35oE. In this research embarked upon, it was observed that at a depth of 2.0cm the maximum output of the solar still was obtained and a maximum efficiency of 25.3%.

Published in Journal of Energy and Natural Resources (Volume 4, Issue 1)
DOI 10.11648/j.jenr.20150401.11
Page(s) 1-4
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2015. Published by Science Publishing Group

Keywords

Brackish Water, Productivity, Solar Still, Distillation

References
[1] Rubio, E., M.A. Porta, J.L. Fernandez, Cavity geometry influence on mass flow rate for single and double slope solar stills, Applied Thermal Engineering 20 (2000) 1105–11, doi:10.1016/S1359-4311(99)00085-
[2] H. Fath, A. Sadik and T. Mezher, Present and Future Trend in the Production and Energy Consumption of Desalinated Water in GCC Countries, Int. J. of Thermal & Environmental Engineering Volume 5, No. 2 (2013) 155-165, doi: 10.5383/ijtee.05.02.00
[3] A.S. Nafey, M. Abdelkader, A. Abdelmotalip and A.A. Mabrouk, Solar still productivity enhancement, Energy conversion and management,42 (2001) 1401-08, doi:10.1016/S0196-8904(00)00107-2
[4] Gnanadason M K, Kumar P S, Rajakumar S and Yousuf M H S (2011), “Effect of nanofluids in a vacuum single basin solar still”, IJAERS, 1, pp: 171-177, 2011.
[5] M.R. Rajamanickam, A. Ragupathy, Influence of Water Depth on Internal Heat and Mass Transfer in a double slope solar still, Energy procedia, 14 (2012) 1701-08, doi:10.1016/j.egypro.2011.12.887
[6] Mamlook R and Badran 0,(2007) Fuzzy sets implementation for the evaluation of factors affecting solar still production, Desalination, 203, pp. 394-402.
[7] Badran 0.0. and Al- Tahaineh H.A.,(2005) The effect of coupling a flat-plate collector on the solar still productivity, Desalination, 183, pp. 137-142.
[8] Boukar M. and Harmim A.,(2001) Effect of climatic conditions on the performance of a simple basin solar still: a comparative study, Desalination, 137,pp. 15-22.
[9] XAbdul Jabbar, N. Khalifa & Ahmad, M. Hamood (2009). On the Effect of Water Depth on the Performance of Basin-type Solar Stills. Solar Energy 83: 1312-1321.
[10] Garg, H.P., Mann, H.S., 1976. Effect of climatic, operational and design parameters on the year round performance of a single slop and double slop solar still under Indian arid zone conditions. Solar Energy 18, 159-164..
[11] Kalidasa, K., and Srithar, K. (2012). Performance Study on Basin-Type Double-Slope Solar Still With Different Wick Materials and Minimum Mass of Water. Renewable Energy. 36(2): 612-620
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  • APA Style

    T. A. Babalola, A. O. Boyo, R. O. Kesinro. (2015). Effect of Water Depth and Temperature on the Productivity of a Double Slope Solar Still. Journal of Energy and Natural Resources, 4(1), 1-4. https://doi.org/10.11648/j.jenr.20150401.11

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    ACS Style

    T. A. Babalola; A. O. Boyo; R. O. Kesinro. Effect of Water Depth and Temperature on the Productivity of a Double Slope Solar Still. J. Energy Nat. Resour. 2015, 4(1), 1-4. doi: 10.11648/j.jenr.20150401.11

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    AMA Style

    T. A. Babalola, A. O. Boyo, R. O. Kesinro. Effect of Water Depth and Temperature on the Productivity of a Double Slope Solar Still. J Energy Nat Resour. 2015;4(1):1-4. doi: 10.11648/j.jenr.20150401.11

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  • @article{10.11648/j.jenr.20150401.11,
      author = {T. A. Babalola and A. O. Boyo and R. O. Kesinro},
      title = {Effect of Water Depth and Temperature on the Productivity of a Double Slope Solar Still},
      journal = {Journal of Energy and Natural Resources},
      volume = {4},
      number = {1},
      pages = {1-4},
      doi = {10.11648/j.jenr.20150401.11},
      url = {https://doi.org/10.11648/j.jenr.20150401.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jenr.20150401.11},
      abstract = {Drinkable water is a basic necessity for humanity, and the increase in human population growth has led to water pollution to the surface and underground water reservoirs. In order to meet the increasing demand for potable water, researchers have developed various technologies to meet this target. Solar distillation is a technology suitable for producing distilled water from brackish water. This is achieved by the use of a solar still. A solar still is a simple solar device used in converting salt/brackish water into potable water. In this research, the productivity of water by a double slope solar still was determined by varying the water depth and surrounding temperature for nine days in the premises of Lagos State University, Ojo, Nigeria at 6.5oN, 3.35oE. In this research embarked upon, it was observed that at a depth of 2.0cm the maximum output of the solar still was obtained and a maximum efficiency of 25.3%.},
     year = {2015}
    }
    

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    T2  - Journal of Energy and Natural Resources
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    AB  - Drinkable water is a basic necessity for humanity, and the increase in human population growth has led to water pollution to the surface and underground water reservoirs. In order to meet the increasing demand for potable water, researchers have developed various technologies to meet this target. Solar distillation is a technology suitable for producing distilled water from brackish water. This is achieved by the use of a solar still. A solar still is a simple solar device used in converting salt/brackish water into potable water. In this research, the productivity of water by a double slope solar still was determined by varying the water depth and surrounding temperature for nine days in the premises of Lagos State University, Ojo, Nigeria at 6.5oN, 3.35oE. In this research embarked upon, it was observed that at a depth of 2.0cm the maximum output of the solar still was obtained and a maximum efficiency of 25.3%.
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Author Information
  • Department of Physics, Lagos State University, Ojo, Lagos State, Nigeria

  • Department of Physics, Lagos State University, Ojo, Lagos State, Nigeria

  • Department of Physics, Lagos State University, Ojo, Lagos State, Nigeria

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