Abstract
This document presents the evaluation and the monitoring of the performances of the first grid-connected photovoltaic system installed in the Center of Studies and Researches on the Renewable Energies (CERER) inaugurated on December 4th, 2012 by the governmental authorities of Senegal and Tenerife. This mini power plant of 3.15 kWc is a perfect example of the political will of the government which is to reduce the production cost of the electricity, with the diversification of the sources of production, and the greater use of the other sources such as the natural gas, the coal, the renewable energies. The evaluation of the performances of the installation is realized by using the indicators of efficiency and performance as the photovoltaic surface yield, the ratio of photovoltaic performance, the photovoltaic specific yield, and the losses of captures. The obtained results show that a big part of the energy shone during the period of observation was not able to be used further to circumstances such as the losses of conductivity, the heat losses or for example the defects on components. The analysis also shows that a large part of the produced energy is not injected because of the dilapidation of the network, the defects of landing but especially one disjunction sees frequently at the level of the point of injection.
Highlights
IntroductionIn a stand-alone PV system, a PV array is the only source of energy powering all the electrical loads [1]
This document presents the evaluation and the monitoring of the performances of the first grid-connected photovoltaic system installed in the Center of Studies and Researches on the Renewable Energies (CERER) inaugurated on December 4th, 2012 by the governmental authorities of Senegal and Tenerife
The analysis of the performances of the first photovoltaic system connected to the network of Senegal, presented in this article, shows us that the follow-up of the performances is very important for the systems connected to the network
Summary
In a stand-alone PV system, a PV array is the only source of energy powering all the electrical loads [1]. The increasing concern concerning the demand in electricity, the global warming and the reduction in the cost of the photovoltaic modules became engines for bigger photovoltaic applications. The cumulative global photovoltaic (PV) capacity has been growing exponentially latest years around the world, especially due to the installation of grid connected PV systems. This growth indicates that PV energy production will have a very important role in the total generation of electricity of the future [2]
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