Influence of pre-existing damages on the degradation behavior of crystalline silicon photovoltaic modules

Camus C, Adegbenro A, Ermer J, Suryaprakash V, Brabec C, Hauch J (2018)


Publication Language: English

Publication Status: Published

Publication Type: Journal article, Original article

Publication year: 2018

Journal

Publisher: American Institute of Physics Inc.

Book Volume: 10

Article Number: 021004

Journal Issue: 2

DOI: 10.1063/1.5000294

Abstract

In this paper, the influence of pre-existing crystalline damage, such as cracked or broken
cells or soldering failures, as they are frequently observed in operating photovoltaic
(PV) plants, on the degradation behavior of mono- and polycrystalline silicon
PV modules is investigated. In particular, it is analyzed if and to what extent predamage
introduced prior to lamination propagates upon stress exposure. Therefore,
the pre-damaged modules are exposed to various accelerated aging conditions in
order to analyze the impact of the pre-damage on the degradation behavior under the
respective aging scenario. In order to separate the influence of the pre-damage from
composition-induced influences, the choice of materials used in the modules is varied.
These investigations reveal that none of the accelerated aging tests causes any
change in the pre-existing damage. In fact, the degradation behavior and rate rather
depended on the choice of the module components than on the nature of the predamage.
Finally, these results are compared with indoor and outdoor results obtained
from other studies

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How to cite

APA:

Camus, C., Adegbenro, A., Ermer, J., Suryaprakash, V., Brabec, C., & Hauch, J. (2018). Influence of pre-existing damages on the degradation behavior of crystalline silicon photovoltaic modules. Journal of Renewable and Sustainable Energy, 10(2). https://doi.org/10.1063/1.5000294

MLA:

Camus, Christian, et al. "Influence of pre-existing damages on the degradation behavior of crystalline silicon photovoltaic modules." Journal of Renewable and Sustainable Energy 10.2 (2018).

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