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The solar noise barrier project: 2. The effect of street art on performance of a large scale luminescent solar concentrator prototype

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  • Debije, Michael G.
  • Tzikas, Chris
  • Rajkumar, Vikram A.
  • de Jong, Minne M.

Abstract

Noise barriers have been used worldwide to reduce the impact of sound generated from traffic on nearby areas. A common feature to appear on these noise barriers are all manner of graffiti and street art. In this work we describe the relative performance of a large area luminescent solar concentrator (LSC) noise barrier before and after application of street art to one surface. Comparisons are made of performance of East/West facing panels during a sunny day. It is shown that the edge mounted solar cells that are further away from the artwork perform at about 80% of their original performance level, while cells mounted nearby show greater performance decreases, suggesting that the effect of street art is primarily a localized effect. Furthermore, we demonstrate that illumination by sunlight from the rear side of the panel, opposite to the artwork shows less of a performance drop. In summary, the overall performance of a large-scale prototype LSC device is affected by the application of street art due to blocking solar access to the surface, but the effect is mostly confined to areas in the immediate vicinity of the surface modification, and the remaining panel area continues to function at a reasonable level.

Suggested Citation

  • Debije, Michael G. & Tzikas, Chris & Rajkumar, Vikram A. & de Jong, Minne M., 2017. "The solar noise barrier project: 2. The effect of street art on performance of a large scale luminescent solar concentrator prototype," Renewable Energy, Elsevier, vol. 113(C), pages 1288-1292.
  • Handle: RePEc:eee:renene:v:113:y:2017:i:c:p:1288-1292
    DOI: 10.1016/j.renene.2017.07.025
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    References listed on IDEAS

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    1. Kanellis, Michalis & de Jong, Minne M. & Slooff, Lenneke & Debije, Michael G., 2017. "The solar noise barrier project: 1. Effect of incident light orientation on the performance of a large-scale luminescent solar concentrator noise barrier," Renewable Energy, Elsevier, vol. 103(C), pages 647-652.
    2. Dolara, Alberto & Lazaroiu, George Cristian & Leva, Sonia & Manzolini, Giampaolo, 2013. "Experimental investigation of partial shading scenarios on PV (photovoltaic) modules," Energy, Elsevier, vol. 55(C), pages 466-475.
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    Cited by:

    1. Li, Yilin & Sun, Yujian & Zhang, Yongcao, 2020. "Regional measurements to analyze large-area luminescent solar concentrators," Renewable Energy, Elsevier, vol. 160(C), pages 127-135.
    2. Bognár, Ádám & Kusnadi, Suryadi & Slooff, Lenneke H. & Tzikas, Chris & Loonen, Roel C.G.M. & de Jong, Minne M. & Hensen, Jan L.M. & Debije, Michael G., 2020. "The solar noise barrier project 4: Modeling of full-scale luminescent solar concentrator noise barrier panels," Renewable Energy, Elsevier, vol. 151(C), pages 1141-1149.
    3. Ana R. Frias & Marita A. Cardoso & Ana R. N. Bastos & Sandra F. H. Correia & Paulo S. André & Luís D. Carlos & Veronica de Zea Bermudez & Rute A. S. Ferreira, 2019. "Transparent Luminescent Solar Concentrators Using Ln 3+ -Based Ionosilicas Towards Photovoltaic Windows," Energies, MDPI, vol. 12(3), pages 1-11, January.
    4. Debije, Michael G. & Tzikas, Chris & de Jong, Minne M. & Kanellis, Michalis & Slooff, Lenneke H., 2018. "The solar noise barrier project: 3. The effects of seasonal spectral variation, cloud cover and heat distribution on the performance of full-scale luminescent solar concentrator panels," Renewable Energy, Elsevier, vol. 116(PA), pages 335-343.
    5. Bartłomiej Milewicz & Magdalena Bogacka & Krzysztof Pikoń, 2021. "Influence of Solar Concentrator in the Form of Luminescent PMMA on the Performance of a Silicon Cell," Sustainability, MDPI, vol. 13(4), pages 1-14, February.

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