M. CHADEL, M.M. BOUZAKI, B. BENYOUCEF, A. CHADEL, M. AILLERIE
Abstract. We study a solution for photovoltaic plants located in an isolated site in the aim to minimize losses in PV panels due to the effect of temperature changes and intensity irradiation variations. The influence of the temperature of the solar cells is an important focus in research. We can say that the temperature has a detrimental effect on the characteristics of the solar cell. When photons of low energy are lost, there will be a loss of light output. Pmax is proportional to intensity irradiation. The series resistances reduce the efficiency of the solar cell which is not preferable. The parallel resistors increase the efficiency of the solar cell which is preferable.
Generator PV, Solar Radiation, Power, Temperature, Series and Parallels Resistances
Published online 12/10/2016, 5 pages
Copyright © 2016 by the author(s)
Published under license by Materials Research Forum LLC., Millersville PA, USA
Citation: M. CHADEL, M.M. BOUZAKI, B. BENYOUCEF, A. CHADEL, M. AILLERIE, ‘Original solution for a photovoltaic installation at a remote site’, Materials Research Proceedings, Vol. 1, pp 154-158, 2016
The article was published as article 39 of the book Dielectric Materials and Applications
 M. El Ouariachi et al, Analysis, optimization and modeling of electrical energies produced by the panels and systems, Revue des energies renouvelables, Vol 14 N°4, 2011, page 707-716.
 Series resistance effects on solar cell measurements Advanced Energy Conversion, Vol 3, pp, 455-479.
 Subhash Chander et al, Impact of temperature on performance of series and parallel connected mono-crystalline silicon solar cells, Energy reports 1 (2015) 175-180. http://dx.doi.org/10.1016/j.egyr.2015.09.001
 Han, L., Koide, N., Chiba, Y., &Mitate, T. (2004). Modeling of an equivalent circuit for dye-sensitized solar cells. Applied Physics Letters, 84(13), 2433-2435. http://dx.doi.org/10.1063/1.1690495
 Koide, N., Islam, A., Chiba, Y., & Han, L. (2006). Improvementofefficiencyofdye-sensitized solar cells based on analysis of equivalent circuit. Journal of Photochemistry and Photobiology
 A: chemistry, 182(3), 296-305.
 Meriem Chadelet al., Study of a photovoltaic system connected to the network with different technologies the panel PV centred, IJAER, Volume 10, Number 18 (2015),pp 38931-38936.
 M. Sabry, Influence of temperature on methods for determining silicon solar cell series resistance, solar research department PV laboratory, journal of solar energy engineering, Vol 129, 2007.