International Journal of Renewable Energy Research-IJRER

This paper aims to evaluate the global solar radiation of some representative localities of Cameroon using the linear Angstrom model and non-linear polynomial relations. The Angstrom correlation coefficients for the linear, quadratic and cubic polynomial models calculated using the least square method, for the different regions, would be used to predict the global solar energy of the chosen regions. The predictions would be evaluated by some chosen statistical methods. These include: the mean bias error (MBE), the mean relative error (MRE), the root mean square error (RMSE) and t-statistic (t-stat) error, which are the most widely used ones. The input data for the analyses are the measured global solar radiation and mean number of monthly sun shine hours. The data for the analyses is obtained partly from the archives of National Aeronautics and Space Administration (NASA) and partly from the archives of the Cameroon Department of Meteorology, Douala. The data used covers a period of 23 years. We demonstrate the validity of the developed models by comparing the evaluated values of global solar radiation with the measured ones. Hence the regression equations can be used to confidently predict the global solar radiation of the representative regions in the absence of experimental data. We equally implement a high-precision sun-tracking algorithm is necessary to follow the sun’s trajectory from dawn until dusk, in order to maintain high output power and stability of a solar power system.

Global Solar Radiation; Angstrom; least square method; regression analysis;sun shine hours;mean bias error (MBE); mean relative error (MRE); root mean square error (RMSE); t-statistic; sun-tracking; sun path diagram

N. Emmanuel, T. Elie, Energy Systems:Vulnerability – Adaptation – Resilience (VAR), Helio International, Regional Focus: sub-Saharan Africa-Cameroon, 2009.

D. Afungchui , N. Neba Rene, GSR of Some Regions of Cameroon using the linear Angstrom and non-linear Polynomial Relations (Part I) Model Development, International Journal of Renewable Energy Research, IJRER, vol. 3, issue 4, pp. 984-992, 2013.

J. K. Page, The estimation of monthly mean values of daily short-wave radiation on vertical and inclined surfaces from sunshine records for latitude 400N – 400S, Proceedings of the UN Conference on New Sources of Energy, vol 4, pp. 378-390, 1964

A. S. Angstrom, Solar and terrestrial radiation. Quart Journal of the Royal Meteorological Society, vol. 50, pp.121-126, 1924.

E. O. Falayi and A. B. Rabiu. Modeling GSR using sunshine duration data. Nigeria Journal of Physics, vol. 17, pp.181-186, 2005.

B. Safari and J. Gasore (2009). Estimation of GSR on horizontal surface in Rwanda using empirical models. Asian Journal of Science Research 2: 68-75.

V. Badescu, Correlations to estimate monthly mean daily global solar irradiation: application to Romania. Energy, 24(10), pp.883-893, 1999.

B. Aksoy (1997), Estimated monthly average global radiation for Turkey and its comparison with observations. Renewable Energy, vol. 10, pp.625-633, 1997.

M. Sekar, M. Sakthivel, S. S. Kumar & C. Ramesh, Estimation of GSR for Chennai. European Journal of Scientific research, vol. 73(3), pp.415-424, 2012.

H. Z. Che, G. Y. Shi, X. Y. Zhang, J. Q. Zhao, Y. Li, Analysis of sky condition using 40 years records of solar radiation data in China. Theoretical and Applied Climatology, vol. 89, pp.83-94, 2007.

K. Ulgen and A. Hepbasli. solar radiation models. Part 2: Comparing and developing new models. Energy Sources, vol. 26, pp. 521-530, 2004.

A. M. Al-Salihi, M. M. Kadum, and A. J. Mohammed, Estimation of GSR on horizontal surface using meteorological measurement for different cities in Iraq. Asian Journal of Scientific Research, vol. 3(4), pp.240-248, 2010.

A. Sharma and B. Marwaha, Development of simulation weather data for Hour wise Daily Diffused and Direct Solar Radiation from Hourly Global Radiation using statistical estimation method for Subtropical region IJRER,Vol.5, No.4, 2015.

R. J. Stone, Improved statistical procedure for the evaluation of solar radiation estimation models. Solar Energy, vol. 51(4), pp.289-291, 1993.

L. E. Akpabio, S. O. Udo, S. E. Etuk, Empirical correlation of GSR with meteorological data for Onne, Nigeria. Turkish Journal of Physics, vol. 28(3), pp.222-227, 2004.

A. A. El-Sebaii, F. S. Al-Ghamdi, Al-Hazmi and Adel S. Faidah (2009). Estimation of GSR on horizontal surfaces in Jeddah, Saudi Arabia. Energy Policy, vol. 37, pp. 3654-3669, 2009.

K. Bakirci, Correlations for estimation of daily GSR with hours of bright sunshine in Turkey. Energy, vol. 34, pp.485-501, 2009.

R. T. Ogulata, S. N. Ogulata. Solar radiation in Adana, Turkey. Applied Energy, vol. 71, pp. 351-358, 2002.

H. Aras, O. Balli and A. Hepbasli, Global Solar Potential. Part 1: Model Development. Energy Sources, Part B, vol. 1(3), pp. 303-315, 2006.

K. Ulgen, A. Hepbasli , Estimation of solar radiation parameters for Izmir, Turkey. International Journal of Energy Resources, vol. 24, pp.773-785, 2002.

B. G. Akinoglu, A. Ecevit , Construction of a quadratic model using modified Angstrom coefficients to estimate GSR. Solar Energy, vol. 45(2), pp.85-92, 1990.

E. C. Okogbue, J. A. Adedokun, The estimation of solar radiation at Ondo, Nigeria , Journal of Physics, vol. 14, pp. 97-99, 2002.

A. A. Trabea, M. A. M. Shaltout. Correlation of GSR with meteorological parameters over Egypt. Renewable Energy, vol. 21(2), pp. 297-308, 2000.

M. S. Okundamiya and A.N. Nzeako, Estimation model for estimating solar radiation on horizontal surfaces for selected cities in the six geopolitical zones in Nigeria. Journal of Control Science and Engineering. Hindawi Publishing Corporation, 2011.

A. Sfetsos, A. H. Coonick , Univariate and multivariate forecasting of hourly solar radiation with artificial intelligence techniques. Solar Energy, vol. 68:169-178, 2000.

D. Njomo, L. Wald, Solar irradiation retrieval in Cameroon from meteosat satellite imagery using Helio_2 method. ISESCO Science and Technology Vision, vol. 2(1), pp. 19-24, 2006.

M. Gunes, Analysis of daily total horizontal solar radiation measurements in Turkey. Energy Sources, vol. 23, pp. 563-570, 2001.

A. Kilic, A. Ozturk , Solar Energy. Istanbul, Turkey: Kipas Distribution, 1983.

H. Ogelman, A. Ecevit, and E. Tasdemiroglu, A new method for estimating solar radiation from bright sunshine data. Solar Energy, vol. 33, pp. 619-625, 1984.

I. T. Togrul, H. Togrul, GSR over Turkey: Comparison of predicted and measured data. Renewable Energy, vol. 25, pp.55-67, 2002.

M. Kaya, Estimation of GSR on horizontal surface in Erzincan, Turkey. International Journal of Physical Sciences, vol. 7(33) pp. 5273-5280, 2012.

M. Sekar, M. Sakthivel, S. S. Kumar & C. Ramesh, Estimation of GSR for Chennai. European Journal of Scientific research, vol. 73(3), pp.415-424, 2012.

A. M. Al-Salihi, M. M. Kadum, and A. J. Mohammed, estimation of GSR on horizontal surface using meteorological measurement for different cities in Iraq. Asian Journal of Scientific Research 3(4):240-248, 2010.

T. D. M. A. Samuel, Estimation for GSR for Sri Lanka. Solar Energy, vol. 47, pp.333-337, 1991.

S. Tarhan and A. Sari. Model selection for global and diffuse radiation over the Central Black Sea (CBS) region of Turkey. Energy Conversion and Management, vol. 46(4), pp. 605-613, 2005.

E. Tasdemiroglu and R. Sever, Monthly and yearly average maps of total and direct solar radiation in Turkey. Solar Energy, vol. 37, pp. 205-213, 1986.

E. Tasdemiroglu and R. Sever, Maps for average bright sunshine hours in Turkey. Energy Conversion and Management, vol. 31, pp.545-552, 1991.

E. Tasdemiroglu and R. Sever, Estimation of monthly average daily diffuse radiation in Turkey. Energy, vol. 16, pp. 787-790, 1991.

M. Tiris, C. Tiris and I. E. Ture , Diffuse solar radiations: Applications to Turkey and Australia. Energy, vol. 20, pp.745-749, 1995.

M. Tiris, C. Tiris and I. E. Ture (1996). Correlations of monthly average daily global, diffuse and beam radiations with hours of bright sunshine in Gebze, Turkey. Energy Conversion and Management, vol. 37, pp. 1417-1421, 1996.

K. Ulgen and A. Hepbasli, Comparison of solar radiation correlation for Izmir, Turkey. International Journal of Energy Resources, vol. 26, pp. 413-430, 2002.

NASA, Surface Meteorology and Solar Energy Data and Information, 2010. http://eosweb.larc.nasa.gov/sse/,

P. I. Cooper. The absorption of radiation in solar stills. Solar Energy, vol. 2(3), pp.333-346, 1969.

J. A. Duffie, W. A. Beckman, Solar Engineering of Thermal Processes. John Wiley and Sons Inc. New York, 1991.

United Nations. Department of peacekeeping operations. Cartographic Section. Map no. 4227, September 2004.

Kipp & Zonen, Pyranometer Instruction Manual, 2000.

M. Iqbal, An introduction to solar radiation. New York: Academic Press, 2003.

H. Bulut and O. Buyukalaca . Simple model for the generation of daily GSR data in Turkey. Applied Energy, vol. 84, pp. 477-491, 2007.

R. Saheli, Calculation of Sun Position and Tracking the Path of Sun for a Particular Geographical Location, 2012.

DIN, DIN 5034 Part 2, Daylight in Indoor Rooms. Deutsches Institut für Normung e.V., Berlin, Beuth Press, 1985.

V. Quaschning, Understanding Renewable Energy Systems, Earthscan, 2002.

http://www.sunearthtools.com/ table of values consulted on 20/04/2016.

Hanae Loutfi, Ahmed Bernatchou, Rachid Tadili, Generation of Horizontal Hourly Global Solar Radiation From Exogenous Variables Using an Artificial Neural Network in Fes (Morocco), IJRER, Vol 7, No 3, 2017.

N. Kumar, U. K. Sinha, S. P. Sharma, Y. K. Nayak, Prediction of Daily Global Solar Radiation Using Neural Networks With Improved Gain Factors and RBF Networks, IJRER, Vol 7, No 3, 2017.

Paulinus Ekene Ugwuoke, Cajetan Ezeani Okeke, Statistical Assessment of Average Global and Diffuse Solar Radiation on Horizontal Surfaces in Tropical Climate , IJRER, Vol 2, No 2, 2012.

Rami Al-Hajj; Ali Assi; Mohamad M. Fouad, A predictive evaluation of global solar radiation using recurrent neural models and weather data, 2017 IEEE 6th International Conference on Renewable Energy Research and Applications (ICRERA), Pages: 195 – 199, IEEE Conferences, 2017.

Miguel Ãngel Jiménez-Bello; Juan R. Castel; Luca Testi; Diego S. Intrigliolo, Assessment of a Remote Sensing Energy Balance Methodology (SEBAL) Using Different Interpolation Methods to Determine Evapotranspiration in a Citrus Orchard, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, Volume: 8, Issue: 4, Pages: 1465 – 1477, IEEE Journals & Magazines, 2015.

A Novel Application of Naive Bayes Classifier in Photovoltaic Energy Prediction, Ramazan Bayindir; Mehmet Yesilbudak; Medine Colak; Naci Genc, 2017 16th IEEE International Conference on Machine Learning and Applications (ICMLA), Pages: 523 – 527, IEEE Conferences, 2017.

T. R. Ayodele; A. S. O. Ogunjuyigbe; E. O. Oyediran; Olorunfemi Ojo, Temperature based model for estimating the daily average global solar irradiation of Ibadan, Nigeria, AFRICON 2015, Pages: 1 – 5, IEEE Conferences, 2015.

Kacem Gairaa; Farouk Chellali; Said Benkaciali; Youcef Messlem; Khellaf Abdallah, Daily global solar radiation forecasting over a desert area using NAR neural networks comparison with conventional methods, 2015 International Conference on Renewable Energy Research and Applications (ICRERA), Pages: 567 – 571, IEEE Conferences, 2015.