Estimation of Global Radiation using Clear-Sky Model at Selected Sites in Kenya
##article.abstract##
interest in, and development of, renewable and sustainable energy including solar energy. Solar radiation data is an important input parameter in the design and implementation of solar energy systems. Only a few scattered meteorological stations in Kenya measure solar radiation on a continuous basis. The use of models to estimate this parameter can alleviate the problem. A clear sky model can be easily obtained from measured global solar radiation on a horizontal surface situate on Earth’s surface. Using solar radiation and duration of sunshine data from 11 Kenyan meteorological stations, this study tested seven Angstrom-Prescott type regression models for their suitability to estimate clearness index for clear skies. The Angstrom-Prescott type models were obtained by regressing sunshine duration against clearness index and obtaining curves of best fit. Linear, quadratic, exponential, power and logarithmic fits were obtained. Model performance was measured using goodness of fit statistics including Pearson correlation coefficient (r), coefficient of determination (R2), Mean Bias Error (MBE), Root Mean Square Error (RMSE), Students- t-statistic, and the t-test. Out of the 11 stations considered data from Dagoretti, Eldoret, J K Airport, and Voi meteorological stations showed high R2 values and these were used to produce modified Angstrom-Prescott models whose long-term, short-term, and overall performances were measured using MBE, RMSE, and t-statistic respectively. For each of the four stations with high R2 values 10 pairs of equations, one each for presented. These 20 equations are recommended for use in estimating clear-sky clearness indices at the four stations (and in the immediate neighbourhood) using measured fraction of duration of sunshine as the only input. The correlation coefficients for each model were determined and these were found to be site dependent. For example the correlation coefficients for the linear model of the Angstrom type for Dagoretti and Eldoret were 0.316, 0.706 and 0.421, 0.650 respectively while those for the quadratic model for the same two stations were respectively 0.348, 0.579, 0.118 and 0.264, 1.175, -0.426. A number of recommendations on the use of these models are given.
References
Engerer, N.A., and Mills, F.P. (2015). Validating Nine Clear Sky Radiation Models in Australia.Solar Energy. 120, 9-24
Baker, D. G., and Haines, D. A. (1969). Solar Radiation and Sunshine Duration Relationship in the North-Central Region of Alaska. Minnesota Agricultural Experimental Station. Tech. Bull. 262
Bird, R.E., and Hulstrom, R.L. (1981). Simplified clear-sky model for direct and diffuse insolation on horizontal surface. SERI/TR 642-761.
Hottel, H. C. (1976). A simple model for estimating the transmittance of direct solar radiation through clear atmospheres. Solar Energy. 18,129.
Ineichen, P. (2016). Validation of models that estimate the clear sky global and beam solar irradiance. Solar Energy. 132, 332-344
Krichak, M. O. (1987). Input Format Guidelines for World Radiometric Network Data. Leningrad. Downloadable from http://wrdc-mgo.nrel.gov/html/formats.html
Lefevre et al, (2013). McClear: a new model estimating down-welling solar radiation at ground level in clear-sky conditions. Atmospheric Measurement Techniques 6, 2403-2418.
Liu, B.Y.H., and Jordan, R. C. (1960). The interrelationship and characteristic distribution of direct, diffuse and total solar radiation. Solar Energy 4, 1-19.
Martinez-Lozano, J. A., Tena, F., Onrubia, J. E., and De la Rubia, J. (1984). The Historical Evolution of the Angstrom formula and its Modifications: Review and Bibliography. Agricultural and Forest Meteorology. 33.
Panoras, A. G., and Mavroudis, I. G. (1994). Relation between duration of sunshine and global solar radiation in Thessaloniki Plain. Hydrotechnica: J. Hellenic Hydrotechnical Association. 4 (1), 3-15.
