Formation and speciation of Sullage Water Natural Conduct analysis of Fuzzy logic Application by Solar Distillation

  • Authors

    • S Shanmugan
    • Selvaraju P
    • M Karthickeyan
    • A Saravanan
    • G Akash Kanna
    • V Ranjith Raja
    2018-04-25
    https://doi.org/10.14419/ijet.v7i2.24.12131
  • Solar still, Nanoparticles, Solar Thermal internal heat Transfer model, fuzzy logic,
  • The recital analysis of thermal techniques for sullage water treatment and fuzzy logic techniques are used to harvest clean water, drinkable water (H2O), fertilizer, ash impurity adding with cement from sullage water by using the energy of the sun. The experimental analysis of sullage water process is implemented of strong luminous that diurnal with weather condition in Vel Tech Multi Tech Dr. Rangarajan Dr Sakunthala Engineering College. It is an innovation to reduce the fluid waste and called water quality conversion. The suspended fluid waste changes the excellence of pure water and ash by thermal and fuzzy logic techniques. In this work is to analyze and compare between pure water and sullage water. It is analyzed of one of the days in the system have been given the 24 hr cycle, the total drip production of the proposed system is found to be 7.324 kg/m2day and without drip 4.952 kg/m2day and Overall efficiency is 36%.

     

  • References

    1. [1] Prakash, J., Kavatherkar, A.K., (1986). Performance prediction of a regenerative solar still. Solar & wind Technology 3(2), pp 119-125.

      [2] Dhiman, N.K., Tiwari, G.N., (1990). Effect of water flowing over the glass cover of a multi-wick solar still. Energy Conversion Management 30(3), pp 245-250.

      [3] Singh, A. K., Tiwari, G. N., (1992). Experimental validation of passive regenerative solar still. International Journal of Energy Research 16(6), pp 497–506.

      [4] Singh, A. K., Tiwari, G. N., (1993). Design parameters of an active regenerative solar still: An experimental study. International Journal of Energy Research 17(5), pp 365–375.

      [5] Sanjaykumar, Sinha, S., (1996). Transient model and comparative study of concentrator coupled regenerative solar still in forced circulation mode. Energy conversion management 37(5), pp 629-636.

      [6] Prasad, B., Bhagat, N. C., Tiwari, G. N., (1997). Enhancement in daily yield due to regenerative effect in solar distillation. International Journal of Ambient Energy 18(2), pp 83-92.

      [7] Sangeeta suneja, Tiwari, G.N., (1999). Effect of water flow on internal heat transfer solar distillation, Energy conversion management 40, pp 509-518.

      [8] S. Shanmugan, V. Arumugaselvi, Sunithasharma, R. Deepika S.Priya, Nano Particles using in Experimental work of Extensive with a Single and Double Exposure Box-type Solar Cooker, International Journal of Applied Engineering Research, ISSN 0973-4562 Vol. 10 No.83 (2015).

      [9] S. Shanmugan, M. Vijayan, V. Suganya, C. Monisha, R. Sangavi, P. Geetanjali and B. Sandhya, Honeycomb Encapsulated Atmospheric Solar Collector Along with Single Basin Solar Still in Highly Energy Absorbing Weather Condition, Indian Journal of Science and Technology, Vol 9(5), DOI: 10.17485/ijst/2016/v9i5/87153, February 2016.

      [10] T. Padmapriya and V. Saminadan, “Distributed Load Balancing for Multiuser Multi-class Traffic in MIMO LTE-Advanced Networksâ€, Research Journal of Applied Sciences, Engineering and Technology (RJASET) - Maxwell Scientific Organization , ISSN: 2040-7459; e-ISSN: 2040-7467, vol.12, no.8, pp:813-822, April 2016.

      [11] S.V.Manikanthan and K.Baskaran “Low Cost VLSI Design Implementation of Sorting Network for ACSFD in Wireless Sensor Networkâ€, CiiT International Journal of Programmable Device Circuits and Systems,Print: ISSN 0974 – 973X & Online: ISSN 0974 – 9624, Issue : November 2011, PDCS112011008.

  • Downloads

  • How to Cite

    Shanmugan, S., P, S., Karthickeyan, M., Saravanan, A., Akash Kanna, G., & Ranjith Raja, V. (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. https://doi.org/10.14419/ijet.v7i2.24.12131