BibTex RIS Kaynak Göster

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Yıl 2013, Cilt: 3 Sayı: 5, 17 - 25, 11.03.2013

Öz

In this study, a general mathematical model of solar cells has been obtained and Matlab/Simulink software based simulation of this model has been visually programmed. Current-Voltage (I-V) and Power-Voltage (P-V) characteristics have been obtained for different number of series and parallel connected cells, different temperature values, different solar absorption ratios and the other parameters depending on the material structure and the efficiency. The simulation results have been compared with theoretical results for the modeled solar cell. Also, modeling of solar cells for different linear and nonlinear loads has been carried out to get output power, current, and voltage curves. Still in this study a solar cell experimental characteristic specifications have been known for different illumination states I-V and P-V curves are obtained and compared with theoretical and simulation results. And, it has been revealed that how affected the curve of the solar cell with the variation of physical conditions. The simulation results

Kaynakça

  • Kaynaklar
  • Joyce A., Rodrigues C., Manso R., “Modeling a PV System”, Renewable Energy 22, 275-280, 2001.
  • Fangrui L., Shanxu D., Fei L., Bangyin L., and Yong K., “A Variable Step Size INC MPPT Method for PV Systems”, IEEE Transactions on Industrial Electronics, 55(7), 2008.
  • Masoum M.A.S., Dehbonei H., Fuchs E. F., “Theoretical and Experimental Analyses of Photovoltaic Systems with Voltage and Current-Based Maximum Power-Point Tracking”, IEEE Transactions on Energy Conversion, 17(4), 2002.
  • Hansen A. D., Sørenson P., Hansen L. H., Bindner H., “Models for a Stand-Alone PV System”, Risø National Laboratory, Roskilde, December 2000.
  • Uzunoglu M., Onar O. C., Alam M. S., “Modeling, Control and Simulation of a PV/FC/UC Based Hybrid Power Generation System for Stand-alone Applications”, Renewable Energy 34, 509-520, 2009.
  • Walker G. R., Sernia P. C., “Cascaded DC-DC Converter Connection of Photovoltaic Modules”, IEEE Transactions on Power Electronics, 19(4), 1130-1140 July 2004.
  • Walker G., “Evaluating Mppt Converter Topologies Using A Matlab PV Model”, Journal of Electrical & Electronics Engineering, 21(1), 49-56, 2001.
  • Altaş I. H., Sharaf, A. M. “A Photovoltaic Array Simulation Model for Matlab-Simulink GUI Environment”, IEEE Conference, 341-345, 2007.
  • Tsai H. L., Tu C. S., and Su Y. J., “Development of Generalized Photovoltaic Model Using Matlab/Simulink”, WCECS 2008, San Francisco, USA, October 22-24, 2008
  • Francisco M.G.L., “Model of Photovoltaic Module in Matlab”, II CIBELEC, 2005,
  • Lorenzo, E. “Solar Electricity Engineering of Photovoltaic Systems” Artes Graficas Gala, S.L., Spain. 1994
  • Ropp M. E., Gonzales S., “Development of Matlab/Simulink Model of a Single- Phase Grid-Connected Photovoltaic System”, IEEE Transactions on Energy Conversion, 2009.
  • Patel H., Agarwal V., “MATLAB-Based Modeling to Study the Effects of Partial Shadings on PV Array Characteristics”, IEEE Transactions on Energy Conversion, 23(1), 302-311, March 2008.
  • Hegazy A. A., “Comparative Study of the Performances of Four Photovoltaic/ Thermal Solar Air Collectors”, Energy Conversion& Management 41, 861-881, 2000.
  • Navruz T. S., Sarıtaş M., “Efficiency Variation of The Intermediate Band Solar Cell Due to The Overlap Between Absorption Coefficients”, Solar Energy Materials & Solar Cells 92, 273-282, 2008.
  • Sahin M. E., Okumus H. İ., “A Fuzzy Logic Controlled PV-Powered Buck–Boost DC-DC Converter for Battery-Load System”, INISTA Conference, Trabzon, 2011.
  • Sharaf A.M., Sahin M.E., “A Novel Photovoltaic PV-Powered Battery Charging Scheme for Electric Vehicles”, ICEAS IEEE Conference, India, 2011.
  • Sahin M. E., Nevruzov V., “Computer Controlled Solar House for Measurement Rize City Solar Energy Potential”, NuRER Conference, Ankara, 2010.
  • Bücher K., Kleiss G., Bätzner D., “Photovoltaic Modules in Buildings: Performance and Safety”, Renewable Energy 15, 545-551, 1998.
  • Manallah A., Bouafia M., Guechi A., “Photometric Study of a Solar Cell Panel Si-c”, NuRER Conference, İstanbul, 2012.
  • İnternet: www.wikipedia.com, “Electromagnetic spectrum and visible light”,2012.
  • Joshi A.S., Dinçer I., Reddy B. V., “Performance Analyses of Photovoltaic Systems: A review”, Renewable and Sustainable Energy Reviews 13, 1884–1897, 2009.

Güneş Pili Modülünün Matlab/Simulink ile Modellenmesi ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink)

Yıl 2013, Cilt: 3 Sayı: 5, 17 - 25, 11.03.2013

Öz

Özet

Bu çalışmada güneş pilinin genel matematiksel modeli elde edilmiş ve bu model Matlab/Simulink yazılımı ile görsel olarak programlanmıştır. Modellenen güneş pili için farklı sayıda seri ve paralel bağlı hücreler, farklı sıcaklık değerleri, farklı güneş soğrulma miktarları, farklı malzeme yapısı ve verime bağlı diğer parametrelere göre Akım-Gerilim (I-V) ve Güç-Gerilim (P-V) karakteristik eğrileri elde edilmiş ve elde edilen benzetim sonuçları teorik sonuçlarla karşılaştırılmıştır. Modellenen güneş piline farklı özellikteki doğrusal ve doğrusal olmayan yükler bağlanarak çıkış akımı, çıkış gerilimi ve güç değerlerinin değişimleri elde edilmiştir. Ayrıca, yapılan çalışmada deneysel olarak karakteristik özellikleri elde edilen bir güneş pilinin farklı aydınlanma durumları için I-V ve P-V eğrileri elde edilerek teorik ve benzetim sonuçları ile karşılaştırılmış ve fiziki koşulların değişimi ile güneş pili eğrilerinin nasıl etkilendiği ortaya konmuştur.  Çalışmada elde edilen benzetimler bu modelin diğer karma sistemlerle beraber kullanımına imkan sağlayacak, aynı zamanda güneş pili üretiminde ve diğer uygulamalarda deneysel çalışmalar için bir referans oluşturacaktır.

Abstract

In this study, a general mathematical model of solar cells has been obtained and Matlab/Simulink software based simulation of this model has been visually programmed. Current-Voltage (I-V) and Power-Voltage (P-V) characteristics have been obtained for different number of series and parallel connected cells, different temperature values, different solar absorption ratios and the other parameters depending on the material structure and the efficiency. The simulation results have been compared with theoretical results for the modeled solar cell. Also, modeling of solar cells for different linear and non-linear loads has been carried out to get output power, current, and voltage curves. Still in this study a solar cell experimental characteristic specifications have been known for different illumination states I-V and P-V curves are obtained and compared with theoretical and simulation results. And, it has been revealed that how affected the curve of the solar cell with the variation of physical conditions. The simulation results have shown that it is possible to use the model with the other hybrid systems. Also, the model can be used as a reference for solar cell manufacturers and the experimental studies in different applications.



Kaynakça

  • Kaynaklar
  • Joyce A., Rodrigues C., Manso R., “Modeling a PV System”, Renewable Energy 22, 275-280, 2001.
  • Fangrui L., Shanxu D., Fei L., Bangyin L., and Yong K., “A Variable Step Size INC MPPT Method for PV Systems”, IEEE Transactions on Industrial Electronics, 55(7), 2008.
  • Masoum M.A.S., Dehbonei H., Fuchs E. F., “Theoretical and Experimental Analyses of Photovoltaic Systems with Voltage and Current-Based Maximum Power-Point Tracking”, IEEE Transactions on Energy Conversion, 17(4), 2002.
  • Hansen A. D., Sørenson P., Hansen L. H., Bindner H., “Models for a Stand-Alone PV System”, Risø National Laboratory, Roskilde, December 2000.
  • Uzunoglu M., Onar O. C., Alam M. S., “Modeling, Control and Simulation of a PV/FC/UC Based Hybrid Power Generation System for Stand-alone Applications”, Renewable Energy 34, 509-520, 2009.
  • Walker G. R., Sernia P. C., “Cascaded DC-DC Converter Connection of Photovoltaic Modules”, IEEE Transactions on Power Electronics, 19(4), 1130-1140 July 2004.
  • Walker G., “Evaluating Mppt Converter Topologies Using A Matlab PV Model”, Journal of Electrical & Electronics Engineering, 21(1), 49-56, 2001.
  • Altaş I. H., Sharaf, A. M. “A Photovoltaic Array Simulation Model for Matlab-Simulink GUI Environment”, IEEE Conference, 341-345, 2007.
  • Tsai H. L., Tu C. S., and Su Y. J., “Development of Generalized Photovoltaic Model Using Matlab/Simulink”, WCECS 2008, San Francisco, USA, October 22-24, 2008
  • Francisco M.G.L., “Model of Photovoltaic Module in Matlab”, II CIBELEC, 2005,
  • Lorenzo, E. “Solar Electricity Engineering of Photovoltaic Systems” Artes Graficas Gala, S.L., Spain. 1994
  • Ropp M. E., Gonzales S., “Development of Matlab/Simulink Model of a Single- Phase Grid-Connected Photovoltaic System”, IEEE Transactions on Energy Conversion, 2009.
  • Patel H., Agarwal V., “MATLAB-Based Modeling to Study the Effects of Partial Shadings on PV Array Characteristics”, IEEE Transactions on Energy Conversion, 23(1), 302-311, March 2008.
  • Hegazy A. A., “Comparative Study of the Performances of Four Photovoltaic/ Thermal Solar Air Collectors”, Energy Conversion& Management 41, 861-881, 2000.
  • Navruz T. S., Sarıtaş M., “Efficiency Variation of The Intermediate Band Solar Cell Due to The Overlap Between Absorption Coefficients”, Solar Energy Materials & Solar Cells 92, 273-282, 2008.
  • Sahin M. E., Okumus H. İ., “A Fuzzy Logic Controlled PV-Powered Buck–Boost DC-DC Converter for Battery-Load System”, INISTA Conference, Trabzon, 2011.
  • Sharaf A.M., Sahin M.E., “A Novel Photovoltaic PV-Powered Battery Charging Scheme for Electric Vehicles”, ICEAS IEEE Conference, India, 2011.
  • Sahin M. E., Nevruzov V., “Computer Controlled Solar House for Measurement Rize City Solar Energy Potential”, NuRER Conference, Ankara, 2010.
  • Bücher K., Kleiss G., Bätzner D., “Photovoltaic Modules in Buildings: Performance and Safety”, Renewable Energy 15, 545-551, 1998.
  • Manallah A., Bouafia M., Guechi A., “Photometric Study of a Solar Cell Panel Si-c”, NuRER Conference, İstanbul, 2012.
  • İnternet: www.wikipedia.com, “Electromagnetic spectrum and visible light”,2012.
  • Joshi A.S., Dinçer I., Reddy B. V., “Performance Analyses of Photovoltaic Systems: A review”, Renewable and Sustainable Energy Reviews 13, 1884–1897, 2009.
Toplam 23 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Akademik ve/veya teknolojik bilimsel makale
Yazarlar

Mustafa Şahin

Halil Okumuş

Yayımlanma Tarihi 11 Mart 2013
Gönderilme Tarihi 11 Mart 2013
Yayımlandığı Sayı Yıl 2013 Cilt: 3 Sayı: 5

Kaynak Göster

APA Şahin, M., & Okumuş, H. (2013). Güneş Pili Modülünün Matlab/Simulink ile Modellenmesi ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink). EMO Bilimsel Dergi, 3(5), 17-25.
AMA Şahin M, Okumuş H. Güneş Pili Modülünün Matlab/Simulink ile Modellenmesi ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink). EMO Bilimsel Dergi. Temmuz 2013;3(5):17-25.
Chicago Şahin, Mustafa, ve Halil Okumuş. “Güneş Pili Modülünün Matlab/Simulink Ile Modellenmesi Ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink)”. EMO Bilimsel Dergi 3, sy. 5 (Temmuz 2013): 17-25.
EndNote Şahin M, Okumuş H (01 Temmuz 2013) Güneş Pili Modülünün Matlab/Simulink ile Modellenmesi ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink). EMO Bilimsel Dergi 3 5 17–25.
IEEE M. Şahin ve H. Okumuş, “Güneş Pili Modülünün Matlab/Simulink ile Modellenmesi ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink)”, EMO Bilimsel Dergi, c. 3, sy. 5, ss. 17–25, 2013.
ISNAD Şahin, Mustafa - Okumuş, Halil. “Güneş Pili Modülünün Matlab/Simulink Ile Modellenmesi Ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink)”. EMO Bilimsel Dergi 3/5 (Temmuz 2013), 17-25.
JAMA Şahin M, Okumuş H. Güneş Pili Modülünün Matlab/Simulink ile Modellenmesi ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink). EMO Bilimsel Dergi. 2013;3:17–25.
MLA Şahin, Mustafa ve Halil Okumuş. “Güneş Pili Modülünün Matlab/Simulink Ile Modellenmesi Ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink)”. EMO Bilimsel Dergi, c. 3, sy. 5, 2013, ss. 17-25.
Vancouver Şahin M, Okumuş H. Güneş Pili Modülünün Matlab/Simulink ile Modellenmesi ve Simülasyonu ( Modeling and Simulation of Solar Cell Module in Matlab/Simulink). EMO Bilimsel Dergi. 2013;3(5):17-25.

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