Experimental evaluation of the temperature related behaviour of pigment based coloured BIPV modules integrated in a ventilated façade

Coloured BIPV installations require an accurate balance between aesthetic and energy aspects. This study explores the integration of Building Integrated Photovoltaic (BIPV) modules into building envelopes to enhance energy efficiency while maintaining aesthetic appeal. To achieve this goal, a real-s...

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Bibliographic Details
Published in:Energy and buildings 2024-11, Vol.323, p.114763, Article 114763
Main Authors: Pelle, Martina, Gubert, Martino, Dalla Maria, Enrico, Astigarraga, Alexander, Avesani, Stefano, Maturi, Laura
Format: Article
Language:English
Subjects:
Coloured BIPV
Ross coefficient
Ventilated façade
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Summary:Coloured BIPV installations require an accurate balance between aesthetic and energy aspects. This study explores the integration of Building Integrated Photovoltaic (BIPV) modules into building envelopes to enhance energy efficiency while maintaining aesthetic appeal. To achieve this goal, a real-scale mock-up was realized within the INFINITE project at the PV Integration Lab of Eurac Research to investigate the influence of aesthetic features (mainly given by different colors) on the energy performance of BIPV modules. Supported by an extensive monitoring campaign, this work delves into the performance of BIPV modules of five colors and finishes in both indoor and real exposure conditions. These modules serve as the outer layer of a prefabricated rain screen facade for building retrofitting. The study highlights that darker colors exhibit higher efficiency under standard test conditions but are also correlated with higher operating temperatures. Consequently, the differences in energy efficiency among the colors, observed during indoor tests, are significantly reduced when analyzing the energy produced under real exposure conditions. This observation underscores the intricate balance between maximizing energy generation and mitigating thermal stress on BIPV modules, while preserving aesthetic features. By providing empirical evidence of color-specific performance characteristics, this work offers insightful results for colored BIPV research and customized product optimization.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2024.114763