References
- Abdallah, S. 2004. The effect of using sun tracking systems on the voltage–current characteristics and power generation of flat plate photovoltaics. Energy Conversion and Management 45:1671–9.
- Abu-Khader, M.M., O. Badran, and S. Abdallah. 2008. Evaluating multi-axes sun tracking system at different modes of operation in Jordan. Renewable and Sustainable Energy Reviews 12(3):864–73.
- Armstrong, S. and W.G. Hurley. 2010. A new methodology to optimise solar energy extraction under cloudy conditions. Renewable Energy 35:780–7.
- Burduhos, B.G., C. Toma, M. Neagoe, and M.D. Moldovan. 2011. Pseudo-equatorial tracking optimization for small photovoltaic platforms from Toronto/Canada. Environmental Engineering and Management Journal 10(8):1059–68.
- Burduhos, B.G., I. Visa, D.V. Diaconescu, and R.G. Saulescu. 2009. Novel orientation step-program of a pseudo-equatorially tracked PV panel. Proceedings of 24th EU PVSEC, 3835–43.
- David, W.M. 1997. Estimation of maximum possible daily global solar radiation. Agricultural and Forest Meteorology 87:223–41.
- Fahl, P. and S. Ganapathisubbu. 2011. Tracking benefits for solar collectors installed in Bangalore. Journal of Renewable and Sustainable Energy 3(2).
- Goswami, D.J., K. Kreith, and J.F. Kreider. 1999. Principles of solar engineering. Philadelphia, PA: George H. Buchanan Co.
- Helwa, N., A. Bahgat, A. El Shafee, and E. El Shennawy. 2000. Maximum collectable solar energy by different solar tracking systems. Energy Sources 22:23–34.
- Karimova, Kh. S., M.A. Saqibb, P. Akhterc, M.M. Ahmedd, J.A. Chatthad, and S.A. Yousafzaid. 2005. A simple photo-voltaic tracking system. Solar Energy Materials & Solar Cells 87:49–59.
- Kelly, N. and T. Gibson. 2009. Improved photovoltaic energy output for cloudy conditions with a solar tracking system. Solar Energy 83:2092–102.
- Kelly, N. and T. Gibson. 2011. Increasing the solar photovoltaic energy capture on sunny and cloudy days. Solar Energy 85:111–25.
- Liu, G.Y., Y. Ren, and S.K. Nguang. 2012. Simulated photovoltaic array systems under a changing environment for temporal performance. International Journal of Green Energy 9(7):673–84.
- Maatallah, T., S. El Alimi, and S.B. Nassrallah. 2011. Performance modeling and investigation of fixed, single and dual-axis tracking photovoltaic panel in Monastir city, Tunisia. Renewable and Sustainable Energy Reviews 15:4053–66.
- Meliss, M. 1997. Regenerative Energiequellen – Praktikum. Berlin, Heidelberg: Springer.
- Moldovan, M.D., I. Visa, and B.G. Burduhos. 2011. Energetic autonomy for a solar house. Environmental Engineering and Management Journal 10(9):1283–90.
- Rubio, F.R., M.G. Ortega, F. Gordillo, and M. Lopez-Martinez. 2007. Application of new control strategy for sun tracking. Energy Conversion and Management 48:2174–84.
- Seme, S. and G. Stumberger. 2011. A novel prediction algorithm for solar angles using solar radiation and differential evolution for dual-axis sun tracking purposes. Solar Energy 85(11):2757–70.
- Singh, B. and M.Y. Othman. 2009. A review on photovoltaic thermal collectors. Journal of Renewable and Sustainable Energy 1(6).
- Sungur, C. 2007. Sun-tracking system with PLC control for photo-voltaic panels. International Journal of Green Energy 4(6):635–43.
- Vatasescu, M.M., D.V. Diaconescu, A. Duta, and B.G. Burduhos. 2011a. Atmospheric pollution evaluation based on turbidity factor analysis. Environmental Engineering and Management Journal 10(2):251–6.
- Vatasescu, M.M., M.D. Moldovan, and B.G. Burduhos. 2011b. Linkages for solar tracking. Brasov: Editura Universitatii Transilvania.
- Visa, I., D.V. Diaconescu, R.G. Saulescu, M.M. Vătăşescu, and B.G. Burduhos. 2011. A new linkage with linear actuator for tracking PV systems with large angular stroke. Chinese Journal of Mechanical Engineering 24(5):744–51.
- Visa, I., D.V. Diaconescu, V.M. Popa, and B.G. Burduhos. 2009. Quantitative estimation of the solar radiation loss in the Braşov area. Environmental Engineering and Management Journal 8(4):843–7.