Simulation, Numerical Analysis of double slope - Tribasin solar still effects of higher yield with Solution Techniques

  • Authors

    • Shanmugan. S
    • Selvaraju. P
    2018-10-02
    https://doi.org/10.14419/ijet.v7i4.10.27918
  • Multi - Basin Solar Still, Transient theory, Regenerative effect.

  • A endeavor examination of a several – cheat shim bowls sunshine superior still is a widget that make unsullied, potable moire from the Saline weaken by utilizing the animation of the insolate. In this a Double Slope – several - fiddlestick Solar still has been fulfill on evident lucid age on summertime and hiems seasoning at Vel Tech Multitech Dr.Rangarajan Dr.Sakunthala Engineering College, Avadi, at Chennai in Tamil Nadu India March 2016 to April 2017. The examining investigations of the framework have been demonstrated that the elementary, another and third stoop assist 36.21%, 34.04 % and 29.05% of the heap up distillate furnish apiece. He explorative exploration of Tribasin solarize supported still have been made for one of the course of the mill days rely exaggerate with other insolate supported still.

     

     

     

  • References

    1. [1] Mahdi J T, Smith B.E & Sharif AO (2011), An experimental wick-type solar still system, Design and construction. Desalination 267, 233-238.

      [2] Janarthanan B, Chandrasekaran J & Kumar S (2005), Evaporative heat loss and heat transfer for open and closed cycle systems of a floating tilted wick solar still. Desalination 180, 291–305.

      [3] Hiroshi Tanaka (2011), Tilted wick solar still with flat plate bottom reflector. Desalination 273, 405-413.

      [4] Hiroshi Tanaka & Yasuhito Nakatake (2007), Improvement of the tilted wick solar still by using a flat plate reflector. Desalination 216, 139-146.

      [5] Garg HP & Mann HS (1976), Effect of climatic, operational and design parameters on the year round performance of single-sloped and double-sloped solar still under Indian arid zone conditions. References and further reading may be available for this article. To view references and further reading you must purchase this article.Solar Energy 18, 159-163.

      [6] Hiroshi Tanaka (2009), Tilted wick solar still with external flat plate reflector: Optimum inclination of still and reflector. Desalination 249, 411-415.

      [7] Hiroshi Tanaka & Yasuhito Nakatake (2009), One step azimuth tracking tilted-wick solar still with a vertical flat plate reflector. Desalination 235, 1-8.

      [8] Janarthanan B, Chandrasekaran J & Kumar S (2006) Performance of floating cum tilted- wick type solar still with the effect of water flowing over the glass cover. Desalination 190, 51-62.

      [9] Naim MM & Mervat A & Kawi (2003) Non-conventional solar stills part 1. Non-conventional solar stills with charcoal particles as absorber medium. Desalination 153, 55-64.

      [10] Velmurugan V, Pandiarajan S, Guruparan P, Harihara Subramanian L, David C, Prabaharan & Srithar K (2009), Integrated performance of stepped and single basinsolar stills with mini solar pond. Desalination 249, 902-909.

      [11] Murugavel KK, Chockalingam K & Srithar K (2008) An experimental study on single basin double slope simulation solar still with thin layer of water in The basin. Desalination 220, 687-693.

      [12] Khalifa Zhani, Habib Ben Bacha & Tarek Damak, (2009), Study of a water desalination unit using solar energy, Desalination and Water Treatment 3, 261–270.

      [13] El-Sebaii AA & Al-Dossari M (2011) A mathematical model of single basin solar still with an external reflector. Desalination and Water Treatment 26, 250–259.

      [14] Shanmugan S, Palani S & Janarthanan B (2018), Productivity enhancement of solar still by PCM and Nanoparticles used with absorbing materials. Desalination 433 (1), 186-198.

      [15] Shanmugan S, Janarthanan B & Saminathan P (2012), Experimental action of a single slope-basin solar still using different absorbing materials bilal: An experimental evaluation of a single slope single basin solar still with Thread absorbing materials in the basin. International Journal of Mechanics and Thermodynamics 3(1), 27-43.

      [16] Shanmugan S (2013), Fuzzy logic modeling of floating cum tilted-wick solar still, International Journal of Recent Scientific Research, Vol. 4, Issue 5, pp. 579 – 582.

      [17] Shanmugan S and Krishnamoorthi G (2013), Fuzzy logic modeling of single slope single basin solar still. International journal of Fuzzy Mathematics and systems 3(2), 125-134.

      [18] Shanmugan S (2013), Experimental investigation of various energy absorbing materials on performance of single slope single basin solar still With Hot water Provision. International Journal of Innovative Research in Science, Engineering and Technology 2(12), 7760 – 7767.

      [19] Shanmugan S, Kottai Raj, Sree Ragh & Arunnarayanan, (2015), Design and Performance Analysis of an Innovative V-shape Double slope Tribasin Solar Nano Still. International Journal of Applied Engineering Research 10(83) 45 - 53.

      [20] Shanmugan S, Selvaraju P, Karthickeyan M, Gangadurai B, Saravanan A (2018), Formation and speciation of Sullage Water Natural Conduct analysis of Fuzzy logic Application by Solar Distillation. International Journal of Engineering& Technology 7 (2.24), 444 - 447.

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    S, S., & P, S. (2018). Simulation, Numerical Analysis of double slope - Tribasin solar still effects of higher yield with Solution Techniques. International Journal of Engineering & Technology, 7(4.10), 1054-1058. https://doi.org/10.14419/ijet.v7i4.10.27918