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The results of experimental verification of considerations conducted in [3] are presented, in terms of application single – axis tracking units, to increase the efficiency of the photovoltaic conversion, in comparison with fixed systems optimally oriented. The design and physical realization of a measurement stand is presented. A photovoltaic module inclination angle correlation algorithm, for a selected location and a measurement period, is described. The measurements were conducted in natural lighting conditions for different weather conditions. The current – voltage and power – voltage characteristics were compared for a fixed and vertically variable configuration. The value of the electric energy generated by tested photovoltaic modules in both cases was determined.
Rocznik
Tom
Strony
414--422
Opis fizyczny
Bibliogr. 14 poz., rys.
Twórcy
autor
- Poznań University of Technology 60-965 Poznań, Piotrowo 3a
- Poznań University of Technology 60-965 Poznań, Piotrowo 3a
Bibliografia
- [1] Bugała A., Frydrychowicz-Jastrzębska G.: Pozycjonowanie modułu fotowoltaicznego w jednoosiowym układzie nadążnym, Poznań University of TechnologyAcademic Journal, 81, 2015, pp.153-160.
- [2] Dhanabal R., Bharathi V., Ranjitha R., Ponni A., Deepthi S., Mageshkannan P.: Comparison of efficiencies of solar tracker systems with static panel single - axis tracking system and dual - axis tracking system with fixed mount, International Journal of Engineering and Technology (IJET), Vol. 5, No. 2, 2013, 1925 – 1932.
- [3] Frydrychowicz-Jastrzębska G, Bugała A.: Sun tracking in PV systems aspects, Monograph Computer Applicationsin Electrical Engineering, Poznań University of Technology, 2012, 333-346.
- [4] Kais A.: A low cost single - axis sun tracker system using PIC microcontroller, Diyala Journal of Engineering Sciences, 5, 2012, 65 – 78.
- [5] Khatib T., Mohamed A., Khan R., Amin N.: A Novel Active Sun Tracking Controller for Photovoltaic Panels, Journal of Applied Sciences, 9, 2009, 4050 – 4055.
- [6] Lorenzo E., Perez M., Ezpeleta A., Acedo J.: Design of tracking photovoltaic system with a single vertical axis, Progress in Photovoltaics: Research in Applications, 10, 2002, pp. 533-543.
- [7] Mohammed H., Al-Najjar T.: Experimental evaluation of the performance of one - axis daily tracking and fixed PV module in Bagdad , Iraq. Journal of Engineering , vol. 19, 9, 2013, 1145-1157.
- [8] Ministry of Infrastructure and Development. Available online: https://cms.transport.gov.pl (accessed on 20 April 2014).
- [9] Poulek V., Libra M.: A very simple solar tracker for space and terrestrial applications, Solar Energy Materials & Solar Cells, 60, 2000, 99 – 103.
- [10] Poulek V., et al.: New Solar Tracker, Solar Energy Materials & Solar Cells, 51, 1998, 113 – 120.
- [11] Rokunuzzaman M., Islam M., Hossain M.: A stand-alone single axis offline PV tracker using low cost CMOS circuitry, Proceedings of the 3rd BSME - ASME International Conference on Thermal Engineering, 2006, 20 – 22.
- [12] Sefa I., Demirtas M., Colak I.: Application of one - axis tracking system, Energy Conversion and Management, 50, 2009, 2709 – 2718.
- [13] Tatu N., Alexandru C.: Mono - axis vs bi - axis tracking for a string of photovoltaic modules, Department of Renewable Energy Systems and Recycling, International Conference of Renewable Energy and Power Quality, 2011.
- [14] Tudorache T., Kreindler L.: Design of a solar tracker system for PV power plants, Acta Polytechnica Hungarica, Vol. 7, No. 1, 23 – 29.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-27adb982-f99c-4901-b4f3-ba625c6b0da0