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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 37, 2015 - Issue 22
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Original Articles

An Evaluation of Global Solar Radiation Empirical Formulations in Isparta, Turkey

M. OzturkDepartment of Mechatronics Engineering, Technology Faculty, Süleyman Demirel University, Cunur, Isparta, TurkeyCorrespondence[email protected]
Pages 2474-2486 | Received 02 Oct 2012, Accepted 26 Oct 2012, Published online: 05 Nov 2015

REFERENCES

  • Akinoğlu, B. G., and Ecevit, A. 1990. A further comparison and discussion of sunshine based models to estimate global solar radiation. Solar Energy 15:865–872.
  • Aksoy, B. 1997. Estimated monthly average global radiation for Turkey and its comparison with observations. Renewable Energy 10:625–633.
  • Almorox, J., and Hontoria, C. 2004. Global solar radiation estimation using sunshine duration in Spain. Energy Convers. Manage. 45:1529–1535.
  • Alsaad, M. A. 1990. Characteristic distribution of global radiation for Amman, Jordan. Solar Wind Technol. 7:261–266.
  • Ampratwum, D. B., and Dorvlo, A. S. S. 1999. Estimation of solar radiation from the number of sunshine hours. Appl. Energy 63:161–167.
  • Angstrom, A. 1924. Solar and terrestrial radiation. Q. J. R. Meteorolog. Soc. 50:121–125.
  • Aras, H., Balli, O., and Hepbasli, A. 2006. Global solar radiation Potential. Part 1. Model development. Energy Sources Part B 1:303–315.
  • Bahel, V., Bakhsh, H., and Srinivasan, R. 1987. A correlation for estimation of global solar radiation. Energy 12:131–135.
  • Bezir, N. C., Akkurt, I., and Ozek, N. 2010a. Estimation of horizontal solar radiation in Isparta (Turkey). Energy Sources Part A 32:512–517.
  • Bezir, N. C., Akkurt, I., and Ozek, N. 2010b. Development of a computer program for estimating solar radiation. Energy Sources Part A 32:995–1003.
  • Black, J. N. 1956. The distribution of solar radiation over the earth’s surface. Arch. Meteorol. Geophys. Bioklimatol. B 7:165–189.
  • Bristow, K. L., and Champbell, G. S. 1984. On the relationship between incoming solar radiation and daily maximum and minimum temperature. Agric. For. Meteorol. 31:159–166.
  • Chen, R., Ersi, K., Yang, J., Lu, S., and Zhao, W. 2004. Validation of five global radiation models with measured daily data in China. Energy Convers. Manage. 45:1759–1769.
  • Duffie, J. A., and Beckman, W. A. 1991. Solar Engineering of Thermal Process. New York: Wiley.
  • Elagib, N., and Mansell, M. G. 2000. New approaches for estimating global solar radiation across Sudan. Energy Convers. Manage. 41:419–434.
  • Glover, J., and McGulloch, J. D. G. 1958. The empirical relation between solar radiation and hours of sunshine. Q. J. R. Meteorolog. Soc. 84:172–175.
  • Gopinathan, K. K. 1988a. A simple method for predicting global solar radiation on a horizontal surface. Solar Wind Technol. 5:581–583.
  • Gopinathan, K. K. 1988b. A general formula for computing the coefficients of the correlations connecting global solar radiation to sunshine duration. Solar Energy 41:499–502.
  • Hargreaves, G. L., Hargreaves, G. H., and Riley, P. 1985. Irrigation water requirement for the Senegal River Basin. J. Irrig. Drain. Eng., 111:265–275.
  • Jain, S., and Jain, P. C. 1988. A comparison of the Angstrom-type correlations and the estimation of monthly average daily global irradiation. Solar Energy 40:93–98.
  • Jin, Z., Yezheng, W., and Gang, Y. 2005. General formula for estimation of monthly average daily global solar radiation in China. Energy Convers. Manage. 46:257–268.
  • Kılıc, A., and Ozturk, A. 1983. Solar Energy. Istanbul, Turkey: Kipas Distribution (in Turkish).
  • Lewis, G. 1992. An empirical relation for estimating global irradiation for Tennessee, USA. Energy Convers. Manage. 33:1097–1099.
  • Louche, A., Notton, G., Poggi, P., and Simonnot, G. 1991. Correlations for direct normal and global horizontal irradiation on a French Mediterranean site. Solar Energy 46:261–266.
  • Luhanga, P. V. C., and Andringa, J. 1990. Characteristic of solar radiation at Sebele, Gaborone, Botswana. Solar Energy 44:71–81.
  • Newland, F. J. 1988. A study of solar radiation models for the coastal region of South China. Solar Energy 31:227–235.
  • Ogelman, H., Ecevit, A., and Tasdemiroglu, E. 1984. A new method for estimating solar radiation from bright sunshine data. Solar Energy 33:619–625.
  • Ozturk, M., Bezir, N. C., and Ozek, N. 2009. Hydropower-water and renewable energy in Turkey: Sources and policy. Renewable Sustainable Energy Rev. 13:605–615.
  • Raja, I. A., and Twidell, J. W. 1990. Diurnal variation of global insulation over five locations in Pakistan. Solar Energy 44:73–76.
  • Rehman, S., and Halwani, T. 1997. Global solar radiation estimation. Renewable Energy 12:369–385.
  • Rietveld, M. R. 1978. A new method for estimating the regression coefficients in the formula relating solar radiation to sunshine. Agric. Meteorol. 19:243–252.
  • Said, R., Mansor, M., and Abuain, T. 1998. Estimation of global and diffuse radiation at Tripoli. Renewable Energy 14:221–227.
  • Samuel, T. D. M. A. 1991. Estimation of global radiation for Sri Lanka. Solar Energy 47:333–337.
  • Soler, A. 1990. Monthly specific Rietveld’s correlations. Solar Wind Technol. 7:305–308.
  • Tahran, S., and Sarı, A. 2005. Model selection for global and diffuse radiation over the Central Black Sea (CBS) region of Turkey. Energy Convers. Manage. 46:605–613.
  • Tasdemiroglu, E., and Sever, R. 1991a. Estimation of monthly average daily, horizontal diffuse radiation in Turkey. Energy 16:787–790.
  • Tasdemiroglu, E., and Sever, R. 1991b. An improved correlation for estimating solar radiation from bright sunshine data for Turkey. Energy Convers. Manage. 31:599–600.
  • Togrul, I. T., and Togrul, H. 2002. Global solar radiation over Turkey: Comparison of predicted and measured data. Renewable Energy 25:55–67.
  • Togrul, I. T., Togrul, H., and Evin, D. 2000. Estimation of monthly global solar radiation from sunshine duration measurements in Elazig. Renewable Energy 19:587–595.
  • Ulgen, K., and Hepbasli, A. 2002. Comparison of solar radiation correlations for Izmir, Turkey. Int. J. Energy Res. 26:413–430.
  • Ulgen, K., and Hepbasli, A. 2004. Solar radiation models. Part 2: Comparison and developing new models. Energy Sources 26:521–530.
  • Yildiz, M., and Oz, S. 1994. Evaluation of the solar energy potential of Turkey. Proceedings of the 6th National Energy Congress, İzmir, Turkey, October 17-21, pp. 250–260 ( in Turkish).

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