The effect of the climate's elements on the sun radiation in Babylon for 2013

  • Authors

    • Salar Ibrahem
    • Muneer Mohammed
    2015-01-27
    https://doi.org/10.14419/ijbas.v4i1.3203
  • Radiation, Effect, Babylon, Temperature and Relativity.
  • In this study special equations had used for calculation the quantity of the solar radiation which incident perpendicular on the Babylon city, the benefit of this study is exploitation the solar energy by solar cell to get the electricity.

    The data of the weather from the meteorological station in College of Education for pure sciences contains the information of the Monthly average of the Solar Radiation with absence atmosphere , the Monthly Average of the theoretical solar radiance  and Relative Air Mass  from 1/ January / 2013 to 31/ August / 2013. The results of this study explains the effects of the climate's elements (degree of temperature and the relative of humidity), on the solar Radiation. In this study I will discover that we can transform the solar radiation in the Babylon city to the electricity by using the solar cells.

  • References

    1. [1] Akpabio, L.E. and Etuk S.E., (2003), "Relationship between global solar radiation and sunshine duration for Onne, Nigeria", Turk J. Phys., Vol.15, P.865.

      [2] Toğrul, I.T., (1998), "Comparison of statistical performance of seven sunshine-based models for Elazığ, Turkey", Chimica Acta Turcica, Vol. 26, P.37.

      [3] Prescott, J.A., (1940), "Evaporation from a water surface in relation to solar radiation", Trans Roy Soc Aust., Vol. 64, P.48.

      [4] Duffie, J.A. and Beckman W.A., (1994), "Solar Engineering of thermal Processes", 2nd Edn., John Wiley, New York.

      [5] Falayi, E.O. and Rabiu A.B., (2005), "Modeling global solar radiation using sunshine duration data Nig.", J. Physics, Vol.17S, P. 181.

      [6] Medugu, D. W. and Yakubu D., (2011), "Estimation of mean monthly global solar radiation in Yola – Nigeria", Pelagia Research Library, Vol.2, P.414.

      [7] Okundamiya, M.S. and Nzeako A.N., (2011), "Empirical model for estimating global solar radiation on horizontal surfaces for selected cities in the six geopolitical zones in Nigeria", J. of Control Sci. and Eng., Vol.2011, P.7. http://dx.doi.org/10.1155/2011/356405.

      [8] Paulescu, M., Fara L. and Tulcan-Paulescu E., (2006), "Model's for obtaining daily global solar irradiation from air temperature data", Atmospheric Research, Vol. 79, P. 227. http://dx.doi.org/10.1016/j.atmosres.2005.06.001.

      [9] Skeiker, K., (2006), "Correlation of global solar radiation with common geographical and meteorological parameters for Damascus province", Syria, Energy conversion and management, Vol.47, P. 331. http://dx.doi.org/10.1016/j.enconman.2005.04.012.

      [10] Stone, R.J., (1993), "Improved statistical procedure for the evaluation of solar radiation estimation models", Solar Energy,Vol. 51, P.289. http://dx.doi.org/10.1016/0038-092X(93)90124-7.

      [11] ToÄŸrul, I.T., (2009), "Estimation of Solar Radiation from Angstroms Coefficients by using Geographical and Meteorological data in Bishkek", Kyrgyzstan, J. Thermal Science and Technology, Vol.29, P.99.

      [12] Walpole, R.E. and Myers, R.H., (1989), "Probability and statistics for engineers and scientists", Macmillan, 4th ed, New York.

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  • How to Cite

    Ibrahem, S., & Mohammed, M. (2015). The effect of the climate’s elements on the sun radiation in Babylon for 2013. International Journal of Basic and Applied Sciences, 4(1), 116-120. https://doi.org/10.14419/ijbas.v4i1.3203