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Application of system modeling and the simulation of photovoltaic production

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Języki publikacji
EN
Abstrakty
EN
The major goal of electric power companies is to give the quantity of electricity claimed by each consumer. This does not function without posing problems because consumption increases with time and the production will not be adequate to cope with the need for electricity. Besides, we may face environmental issues such as the increase of CO2 in the world, the conditions of producing energy, the difficulty of easily, quickly and economically storing large quantities of electricity. One of the solutions that could restrict and solve the problems is the production of renewable energy. In this paper, we focus on photovoltaic products; we present the photovoltaic conversion chain such as modeling, adaptation and control systems, as well as photovoltaic characteristics and system analysis methodology and planning of a photovoltaic system based on the OOPP method (Objectives Oriented Project Planning).
Twórcy
autor
  • Research Unit Signals and Mechatronic Systems, SMS, UR13ES49, National Engineering School of Carthage, ENICarthage, University of Carthage, Tunisia
autor
  • Research Unit Signals and Mechatronic Systems, SMS, UR13ES49, National Engineering School of Carthage, ENICarthage, University of Carthage, Tunisia
autor
  • Research Unit Signals and Mechatronic Systems, SMS, UR13ES49, National Engineering School of Carthage, ENICarthage, University of Carthage, Tunisia
  • Research Unit Signals and Mechatronic Systems, SMS, UR13ES49, National Engineering School of Carthage, ENICarthage, University of Carthage, Tunisia
Bibliografia
  • 1. Adil S., Arthur W. and Hanya A. simplified modeling of a PV panel by using PSIM and its comparison with laboratory test results, Global Humanitarian Technology Conference, 2015.
  • 2. AGCD. Manuel pour l’application de la Planification des Interventions Par Objectifs (PIPO), 2ème Edition, Bruxelles, 1991.
  • 3. Annabi M. PIPO étendue : Méthode Intégrée de Spécification, de Développement et d’Implémentation de Projet (MISDIP), International conference on Sciences and Techniques of Automatic control and computer engineering STA’2003, Sousse, 2003.
  • 4. Asma M., Ali H. and Oualid K. Modélisation et simulation d’un système PV intégré à un réseau BT par la méthode BU Watt-Var découple, 2014.
  • 5. Bellia H., Yousef R. and Fatima M. A detailed modeling of photovoltaic module using Matlab, Journal of Astronomy and Geophysics, 2014.
  • 6. Boualem B., Abdelmadjid C., Jean-Paul G. and Mabrouk H. système solaire photovoltaique connecté au réseau électrique et associé à un filtre actif parallèle, SGE’14, France 2014, 8-10.
  • 7. Das B., Jamatia A. and Chak A. New Pertube and its validation using data from PV module, IJAET, 4(1), 2012, 579-591.
  • 8. Edouard M. and Donatien N. Mathematical modeling and digital simulation of PV solar panel using Matlab software, International Journal of Emerging Technology and Advanced Engineering, 3(9), 2013.
  • 9. Gwinyai D. Modeling of photovoltaic systems, Thesis, The Ohio State University, 2008.
  • 10. Hanen A., Hafedh A., Kais L., Ahmad T. and Mohamed A. étude comparative de cinq algorithmes de commande MPPT pour un système photovoltaique, CIER’13, Tunis, 2013.
  • 11. Jangwoo P., Hong-Geun K., Yongyum C. and Changsum S. Simple modeling and simulation of photovoltaic panels using Matlab/Simulink, Advanced Science and Technology Letters, 73, 2014, 147-155.
  • 12. Kechar E., Azzag E. and Touaibia I. Influence des rayonnements solaires sur le rendement des panneaux photovoltaiques, International Journal of Scientific Engineering and Technology, 3(1), 2015, 71-77.
  • 13. Killich S. and Luczak H. Support of Interorganizational Cooperation via TeamUp at Internet-Based Tool for Work Groups, Proceedings of the 6th internationally Scientific Conference, Berchtesgaden, May 22-25, 2002.
  • 14. Lakhoua M.N. and Ben Jouida T. Refining the objectives oriented project planning (OOPP) into method of informational analysis by objectives, International Journal of the Physical Sciences, 6(33), 2011, 7550-7556.
  • 15. Lakhoua M.N. and Ben Jouida T. Refining the OOPP into Method of Representation of the Information by Objectives, International Transactions on Systems Science and Applications, 7(3), 2011, 295-303.
  • 16. Lakhoua M.N. Systemic analysis of an industrial system: case study of a grain silo, Arabian Journal for Science and Engineering, 38, 2013, 1243–1254.
  • 17. Lakhoua M.N., Jabri I., Battikh T., Maalej L., Mlouhi Y. Study on the use of Systemic Analysis and Image Processing Techniques in a Sports Meeting, European Journal of Scientific Research, 2015, 132(1), 2015.
  • 18. Maalej L., Lakhoua M.N., Chakir I., Battikh T. and Jabri I. planning of a graphics on TV Project of an athletics event, CISTEM2014, Tunis 2014.
  • 19. Ould Mohamed Yahya A., Ould Mohamed A. and Youm I. Etude et modélisation d’un générateur photovoltaique, Revue des energies renouvelables, 11(3), 2008.
  • 20. Peffers K. and Ture Tunanen T. Planning for IS applications: a practical, information theoretical method and case study in mobile financial services, Information & Management, 42(3), 2005, 483-501.
  • 21. Sahu T.P., Dixit T.V.and Kumar R. Perturb and observe MPPT Algorithm for PV array using cuk converter, Advance in Electronic and Electric Engineering, 4(2), 2014, 213-224.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-50e37d40-616b-47d4-85fd-ed2aaf8b6f65
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