Research on effects of environmental factors on photovoltaic panels and modeling with Matlab/Simulink

• Autorzy: Rustemli S. , Dincer F. , Almali M. N.

Warianty tytułu

PL

Badania wpływu warunków środowiskowych na pracę panelu fotowoltaicznego

• Języki publikacji: EN

Abstrakty

EN

In the early days of photovoltaic panels, some 50 years ago, the energy required to generate a photovoltaic panel was more than the energy the panel could generate during its lifetime. As a result of many years of research and experimental studies with today this time can drop up to 3-4 years according to the incentive policies of the some countries. Only obstacle to widespread adoption of photovoltaic panels is cost of their. Therefore, even small studies on photovoltaic panel have great importance to reduce the cost of photovoltaic panel. One of the most important ones is the panel temperature and environmental effects because these factors are affected the panel temperature. In this study, environmental factors that affect to electricity generation capacity of photovoltaic panels have obtained as detailed style with modeling and simulation is designed by Matlab/Simulink programme. Also, environmental factors is added to the model and is entered the system. In addition to this situation were applied on loaded. With this modeling the effects of environmental factors for photovoltaic panels are designed and discussed as detailed by Matlab/Simulink programme.

PL

W artkule zaprezentowano warunki poprawy pracy paneli fotowoltaicznych. Jednym z istotniejszych parametrów jest temperatura panelu i warunki środowiskowe. Zaproponowano model matematyczny panelu uwzględniający warunki środowiskowe.

Słowa kluczowe

EN

photovoltaic panel; environmental factor; MATLAB; Simulink

PL

panel fotowoltaiczny; model matematyczny

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2012
• Tom: R. 88, nr 7a
• Strony: 63--66
• Opis fizyczny: Bibliogr. 8 poz., schem., tab., wykr.

Twórcy

autor

Rustemli S.

autor

Dincer F.

autor

Almali M. N.

• Department of Electrical and Electronics Engineering, Yuzuncu Yil University, 65080, Van/Turkey,

Bibliografia

• [1]. Rustemli S., Dincadam F., Demirtas M.: “Performance Comparison of the Sun Tracking System and Fixed System in the Application of Heating and Lighting”, Arabian Journal for Science and Engineering, 35(2B), 2010, pp. 171–183.
• [2]. Rustemli, S., Dincer, F.: “Modeling of Photovoltaic Panel and Examining Effects of Temperature in Matlab/Simulink”, Elektronika Ir Elektrotechnika, 3(109), 2011, pp. 35-40.
• [3]. Beshr, M., H., Khater, H., A., Abdelraouf, A., A.: “Modeling of a Residential Solar Stand-Alone Power System”, Proceedings of the 1st International Nuclear and Renewable Energy Conference (INREC10), Amman, Jordan, March 21-24, 2010.
• [4]. Kalogirou, S.: ‘Solar Energy Engineering: Processes and Systems: Chapter 9’, Academic Press, June 2009, pp. 469-517.
• [5]. Tsai, H., L.: “Insolation-Oriented Model of Photovoltaic Module Using Matlab/Simulink”, Solar Energy, 84, (7), 2010, pp. 1318-1326.
• [6]. Chenni, R., Makhlouf, M., Kerbache, T., Bouzid, A.: “A detailed modeling method for photovoltaic cells”, Energy, 32, (9), September 2007, pp. 1724-1730.
• [7]. Makrides, G., Zinsser, B., Georghiou, G., E., Schubert, M., Werner, J., H.: “Temperature behaviour of different photovoltaic systems installed in Cyprus and Germany”, Solar Energy Materials and Solar Cells, 93, (6-7), 2009, pp. 1095-1099.
• [8]. TamizhMani, G., Ji, L., Tang, Y., Petacci, L.: “Photovoltaic Module ThermalWind Performance - Long -Term Monitoring and Model Development For Energy Rating”, NCPV and Solar Program Review Meeting 2003, pp. 936-939.