S. Hamid Oudjana scite author profile

The performance of photovoltaic (PV) module is affected by outdoor conditions. Outdoor testing consists installing a module, and collecting electrical performance data and climatic data over a certain period of time. It can also include the study of long-term performance under real work conditions. Tests are operated in URAER located in desert region of Gharda?a (Algeria) characterized by high irradiation and temperature levels. The degradation of PV module with temperature and time exposure to sunlight contributes significantly to the final output from the module, as the output reduces each year. This paper presents a comparative study of different methods to evaluate the degradation of PV module after a long term exposure of more than 12 years in desert region and calculates uncertainties in measuring. Firstly, this evaluation uses three methods: Visual inspection, data given by Solmetric PVA-600 Analyzer translated at Standard Test Condition (STC) and based on the investigation results of the translation equations as ICE 60891. Secondly, the degradation rates calculated for all methods. Finally, a comparison between a degradation rates given by Solmetric PVA-600 analyzer, calculated by simulation model and calculated by two methods (ICE 60891 procedures 1, 2). We achieved a detailed uncertainty study in order to improve the procedure and measurement instrument.

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Experimental typical meteorological years to study energy performance of a PV grid-connected system

Zaghba

Borni

Khennane

et al. 2017

Energy Procedia

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S. Hamid Oudjana

Short term photovoltaic power generation forecasting using neural network

Outdoor study of partial shading effects on different PV modules technologies

Degradation and performance evaluation of PV module in desert climate conditions with estimate uncertainty in measuring

Experimental typical meteorological years to study energy performance of a PV grid-connected system

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