Optical degradation of long-term, field-aged c-Si photovoltaic modules

The optical degradation induced by long-term (about 15 years) field exposure on c-Si photovoltaic modules belonging to the large-scale Delphos ENEA PV plant, located in Manfredonia (South of Italy), was investigated by making comparative reflectance measurements on the exposed modules, after their d...

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Bibliographic Details
Published in:Solar energy materials and solar cells 2005-03, Vol.86 (3), p.349-364
Main Authors: Parretta, Antonio, Bombace, Mariano, Graditi, Giorgio, Schioppo, Riccardo
Format: Article
Language:English
Subjects:
Applied sciences
c-Si PV modules
Energy
Equipments, installations and applications
Exact sciences and technology
Natural energy
Optical degradation
Photovoltaic conversion
Reflectance
Solar energy
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Summary:The optical degradation induced by long-term (about 15 years) field exposure on c-Si photovoltaic modules belonging to the large-scale Delphos ENEA PV plant, located in Manfredonia (South of Italy), was investigated by making comparative reflectance measurements on the exposed modules, after their dismounting and cleaning, and on the original, unexposed counterparts. Four types of module fabrication technologies were analyzed: Helios single-Si, Pragma single-Si, Pragma multi-Si and Ansaldo multi-Si. Siemens multi-Si modules, of recent technology and exposed for 5 years, were taken as reference. The electrical loss measured for the single PV generators of the Delphos plant, each corresponding to a particular module technology, after a monitoring period of about 10 years, resulted to range between 11–22% for the output power and 9–14% for the output current. The aging effects on the dismounted and cleaned modules appeared as the discoloration of ARC layer, particularly at the center of the cells, and as the formation of stains distributed over the cell surface, likely due to the browning of the EVA. The spectral measurements of the total hemispherical reflectance, carried out under direct light at near-normal incidence, showed that the discoloration of ARC is associated to a decrease of the reflectance in the blue region (400–500 nm), and a resulting levelling of the spectral reflectance curves. The spectrally integrated measurements of reflectance carried out at diffuse white light, on the other hand, have provided evidence of an increase of the total hemispherical reflectance for exposed modules, particularly marked for the multi-Si modules, which correlates quite well with the extent of current loss measured on the single PV generators of Delphos plant.
ISSN:0927-0248
1879-3398
DOI:10.1016/j.solmat.2004.08.006