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Global Climate Data Processing and Mapping of Degradation Mechanisms and Degradation Rates of PV Modules

 
: Ascencio-Vásquez, Julián; Kaaya, Ismail; Brecl, Kristijan; Weiß, Karl-Anders; Topic, Marko

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Fulltext urn:nbn:de:0011-n-6032478 (975 KByte PDF)
MD5 Fingerprint: 4057ef8230628f555e822ae9f48e80ce
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Created on: 2.10.2020


Energies 12 (2019), No.24, Art. 4749, 16 pp.
ISSN: 1996-1073
European Commission EC
H2020-Marie Skłodowska-Curie Innovative Training Networks; 721452; SOLAR-TRAIN
Photovoltaic module life time forecast and evaluation
English
Journal Article, Electronic Publication
Fraunhofer ISE ()
photovoltaic; degradation; PV system; climate zones; climate data

Abstract
Photovoltaic (PV) systems are the cheapest source of electricity in sunny locations and nearly all European countries. However, the fast deployment of PV systems around the world is bringing uncertainty to the PV community in terms of the reliability and long-term performance of PV modules under different climatic stresses, such as irradiation, temperature changes, and humidity. Methodologies and models to estimate the annual degradation rates of PV modules have been studied in the past, yet, an evaluation of the issue at global scale has not been addressed so far. Hereby, we process the ERA5 climate re-analysis dataset to extract and model the climatic stresses necessary for the calculation of degradation rates. These stresses are then applied to evaluate three degradation mechanisms (hydrolysis-degradation, thermomechanical-degradation, and photo- degradation) and the total degradation rate of PV modules due to the combination of temperature, humidity, and ultraviolet irradiation. Further on, spatial distribution of the degradation rates worldwide is computed and discussed proving direct correlation with the Köppen-Geiger-Photovoltaic climate zones, showing that the typical value considered for the degradation rate on PV design and manufacturer warranties (i.e., 0.5%/a) can vary ± 0.3%/a in the temperate zones of Europe and rise up to 1.5%/a globally. The mapping of degradation mechanisms and total degradation rates is provided for a monocrystalline silicon PV module. Additionally, we analyze the temporal evolution of degradation rates, where a global degradation rate is introduced and its dependence on global ambient temperature demonstrated. Finally, the categorization of degradation rates is made for Europe and worldwide to facilitate the understanding of the climatic stresses.

: http://publica.fraunhofer.de/documents/N-603247.html