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This paper attempts to validate the performance of a power injection control block for Photovoltaic Generation Systems (PVGS). This device uses a control module based on detecting the power injected into the supply by the inverter, instead of measuring the power generated by the PVGS. The performance is evaluated using the concept of Maximum Energy Curve that takes into account both transient and permanent control performance. The paper presents a basic and simple procedure to obtain a model from the manufacturer characteristic curves of the photovoltaic cells. MATLAB Simulink is used as simulation tool to obtain the response of the proposed system to changes in temperature and irradiance.
Rocznik
Tom
Strony
69--75
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Bibliogr. 5 poz.
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- Power Electrical and Electronic Systems Research Group (http://peandes.unex.es) School of Industrial Engineering, University of Extremadura Avda. de Elvas, s/n. 06071 Badajoz (Spain) Tel.: +34 924 289600, FAX: +34 924 289601, aricde@unex.es
Bibliografia
- 1. Shell® SP150-P photovoltaic solar module characteristics sheet. http://www.shell.com/renewables.
- 2. Yamashati H., Tamahashi K., Michihira M., Tsuyoshi A., Amako K., Park M. : A Novel Simulation Technique of the PV Generation Systems using Real Weather Conditions. IEEE 2002, PCC-Osaka 2002.
- 3. Hansen A.D., Sorensen P., Hansen L.H., Bindner H. : Models for a Stand- Alone PV System. Riso-R-1219(EN)/SEC-R-12. December 2000.
- 4. Grandi G., Sancineto G . : Hardware Modelling of photovoltaic Panels. Proc. of ISES International Energy Society Congress, 2003.
- 5. E s r a m T. , C h a p m a n P. L . : Comparison of Photovoltaic Array Maximum Power Point Tracking Techniques. IEEE Transactions on Energy Conversion. Submitted for publication.
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Bibliografia
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bwmeta1.element.baztech-article-BAT2-0004-0005