Study of an Injection on the Mamwe Comoros Network of Solar Photovoltaic Energy through a Static Switch

Authors

  • Said Mohamed Mariama Université de Lorraine, Groupe de Recherche en Electrotechnique et Electronique de Longwy (GREEN), 186, rue de Lorraine 54400 Cosnes et Romain, France
  • Angel Scipioni Université de Lorraine, Groupe de Recherche en Electrotechnique et Electronique de Longwy (GREEN), 186, rue de Lorraine 54400 Cosnes et Romain, France
  • Angel Scipioni Université de Lorraine, Groupe de Recherche en Electrotechnique et Electronique de Longwy (GREEN), 186, rue de Lorraine 54400 Cosnes et Romain, France
  • Bernard Davat Université de Lorraine, Groupe de Recherche en Electrotechnique et Electronique de Nancy (GREEN), 2, avenue de la forêt de Haye 54518 Vandoeuvre lès Nancy, France
  • Bernard Davat Université de Lorraine, Groupe de Recherche en Electrotechnique et Electronique de Nancy (GREEN), 2, avenue de la forêt de Haye 54518 Vandoeuvre lès Nancy, France

Keywords:

photovoltaic generator, current switch, network.

Abstract

This article proposes to study the injection of photovoltaic solar energy into the network through a current switch. In this work, we opted for the implementation of a solar energy injection device in the network through a thyristor current switch given the property offered by this type of component to easily allow switching at high power. However, like any static switch, this type of component inevitably leads to a deterioration of the quality of the current and the voltage in the distribution networks. The simulation results made it possible to determine the behavior of the energy chain with respect to variations of the sun, the reactive component, the harmonics and their compensation.

References

[1] Nassar-eddine I, Obbadi A, Errami Y, El fajri A, Agunaou M. « Parameter estimation of photovoltaic modules using iterative method and the Lambert W function: a comparative study», Energy Convers Manage 2016; 119:37–48.
[2] Soteris A. Kalogirou « Appendix D - Global photovoltaic Markets», McEvoy's Handbook of Photovoltaics (Third Edition) , Academic Press, 2018,Pages 1231-1235.
[3] Lixin Tian, Jianglai Pan, Ruijin Du, Wenchao Li, Zaili Zhen, Gao Qibing, «The valuation of photovoltaic power generation under carbon market linkage based on real options, Applied Energy »,Applied Energy,Volume 201,
2017, Pages 354-362.
[4] E. P?aczek-Popko, « Top PV market solar cells 2016», Opto-Electronics Review, Volume 25, Issue 2, 2017,Pages 55-64.
[5] Maria Malvoni, Maria Grazia De Giorgi, Paolo Maria Congedo « Study of degradation of a grid connected photovoltaic system » Energy Procedia, Volume 126, 2017, Pages 644-650.
[6] Arash Anzalchi, Arif Sarwat « Overview of technical specifications for grid-connected photovoltaic systems», Energy Conversion and Management, Volume 152, 2017, Pages 312-327.
[7] S. Ben Mabrouk, H. Oueslati, A. Ben Mabrouk, G. Zizzo, F. Massaro « Simulation of photovoltaic installation connected to the grid with storage system», Energy Procedia,Volume 139,2017, Pages 609-616.
[8] S. Kann, M.J. Shiao, C. Honeyman, N. Litvak, J. Jones, L. Cooper, T. Kimbis, J. Baca, S. Rumery, A. Holm, U.S. Solar Market Insight Report |Q3 2015| Executive Summary, U.S. Solar Energy Industry Association (SEIA) and Greentech Media Company (GTM) Research, 2015.
[9] S. Kann, M.J. Shiao, C.Honeyman, N. Litvak, J. Jones, L. Cooper, T. Kimbis, J. Baca, S. Rumery, A. Holm, U.S. Solar Market Insight Report |Q2 2012| Executive Summary. U.S. Solar Energy, 2012.
[10] D’Adamo I, Rosa P. Current state of renewable energies performances in the European Union: a new reference framework. Energy Convers Manage 2016; 121:84–92.
[11] International Energy Agency. 2DS-hiRen Scenario, Energy Technology Perspectives; 2012.
[12] Arif MS. Residential solar panels and their impact on the reduction of carbon emissions. Reduction of carbon emissions using residential solar panels. ?https:// www.nature.berkeley.edu/classes/es196/projects/2013final/ArifM_2013.pdf? [Accessed 09/02/ 2018]; 2013.

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Published

2018-08-29

How to Cite

Mariama, S. M., Scipioni, A., Scipioni, A., Davat, B., & Davat, B. (2018). Study of an Injection on the Mamwe Comoros Network of Solar Photovoltaic Energy through a Static Switch. American Scientific Research Journal for Engineering, Technology, and Sciences, 46(1), 100–110. Retrieved from https://asrjetsjournal.org/index.php/American_Scientific_Journal/article/view/4291

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