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Theelen, M., Bakker, K., Steijvers, H., Roest, S., Hielkema, P., Barreau, N. & Haverkamp, E. (2018) In Situ Monitoring of the Accelerated Performance Degradation of Solar Cells and Modules: A Case Study for Cu(ln,Ga)Se-2 Solar Cells. Jove-Journal of Visualized Experiments, e55897. 
Added by: Richard Baschera (2019-02-12 09:37:17)   Last edited by: Richard Baschera (2019-02-12 09:38:49)
Type de référence: Article
DOI: 10.3791/55897
Clé BibTeX: Theelen2018
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Créateurs: Bakker, Barreau, Haverkamp, Hielkema, Roest, Steijvers, Theelen
Collection: Jove-Journal of Visualized Experiments
Consultations : 10/1508
Indice de consultation : 14%
Indice de popularité : 3.5%
The levelized cost of electricity (LCOE) of photovoltaic (PV) systems is determined by, among other factors, the PV module reliability. Better prediction of degradation mechanisms and prevention of module field failure can consequently decrease investment risks as well as increase the electricity yield. An improved knowledge level can for these reasons significantly decrease the total costs of PV electricity. In order to better understand and minimize the degradation of PV modules, the occurring degradation mechanisms and conditions should be identified. This should preferably happen under combined stresses, since modules in the field are also simultaneously exposed to multiple stress factors. Therefore, two 'Combined Stress test with in situ measurement' setups have been designed and constructed. These setups allow the simultaneous use of humidity, temperature, illumination, and electrical biases as independently controlled stress factors on solar cells and minimodules. The setups also allow real-time monitoring of the electrical properties of these samples. This protocol presents these setups and describes the experimental possibilities. Moreover, results obtained with these setups are also presented: various examples about the influence of both deposition and degradation conditions on the stability of thin film Cu(ln,Ga)Se-2 (CIGS) as well as Cu2ZnSnSe4 (CZTS) solar cells are described. Results on the temperature dependency of CIGS solar cells are also presented.
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