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Heat Generated Using Luminescent Solar Concentrators for Building Energy Applications

Author

Listed:
  • Quinn Daigle

    (Department of Mechanical Engineering, Lassonde School of Engineering, York University, Toronto, ON M3J 1P3, Canada)

  • Paul G. O’Brien

    (Department of Mechanical Engineering, Lassonde School of Engineering, York University, Toronto, ON M3J 1P3, Canada)

Abstract

Luminescent solar concentrators (LSCs) are a promising technology for integration and renewable energy generation in buildings because they are inexpensive, lightweight, aesthetically versatile, can concentrate both direct and diffuse light and offer wavelength-selective transparency. LSCs have been extensively investigated for applications involving photovoltaic electricity generation. However, little work has been done to investigate the use of thermal energy generated at the edges of LSCs, despite the potential for harnessing a broad range of solar thermal energy. In this work, Newton’s law of cooling is used to measure the thermal power generated at the edge of LSC modules subjected to solar-simulated radiation. Results show that the dye in single-panel LSC modules can generate 17.9 W/m 2 under solar-simulated radiation with an intensity of 23.95 mW/cm 2 over the spectral region from 360 to 1000 nm. Assuming a mean daily insolation of 5 kWh/m 2 , the dye in the single-panel LSC modules can generate ~100 kWh/m 2 annually. If the surface area of a building is comparable to its floor space, thermal energy generated from LSCs on the buildings surface could be used to substantially reduce the buildings energy consumption.

Suggested Citation

  • Quinn Daigle & Paul G. O’Brien, 2020. "Heat Generated Using Luminescent Solar Concentrators for Building Energy Applications," Energies, MDPI, vol. 13(21), pages 1-11, October.
    • Handle: RePEc:gam:jeners:v:13:y:2020:i:21:p:5574-:d:434323
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    References listed on IDEAS

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    1. Rajkumar, Vikram A. & Weijers, Cees & Debije, Michael G., 2015. "Distribution of absorbed heat in luminescent solar concentrator lightguides and effect on temperatures of mounted photovoltaic cells," Renewable Energy, Elsevier, vol. 80(C), pages 308-315.
    2. Aste, N. & Tagliabue, L.C. & Del Pero, C. & Testa, D. & Fusco, R., 2015. "Performance analysis of a large-area luminescent solar concentrator module," Renewable Energy, Elsevier, vol. 76(C), pages 330-337.
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    Cited by:

    1. Sree Harsha Bandaru & Victor Becerra & Sourav Khanna & Jovana Radulovic & David Hutchinson & Rinat Khusainov, 2021. "A Review of Photovoltaic Thermal (PVT) Technology for Residential Applications: Performance Indicators, Progress, and Opportunities," Energies, MDPI, vol. 14(13), pages 1-48, June.
    2. Jinlong Wang & Ke Gao & Peishu Li & Yan Zhao, 2023. "Research on Low-Carbon, Energy-Saving Sintering Process with Uniform Temperature for Drill Bits," Energies, MDPI, vol. 16(17), pages 1-18, August.
    3. Nima Talebzadeh & Paul G. O’Brien, 2021. "Elliptic Array Luminescent Solar Concentrators for Combined Power Generation and Microalgae Growth," Energies, MDPI, vol. 14(17), pages 1-20, August.
    4. Nan Yang & Weixiu Shi & Zihong Zhou, 2023. "Research on Application and International Policy of Renewable Energy in Buildings," Sustainability, MDPI, vol. 15(6), pages 1-25, March.
    5. Sheel Bhadra & Niloy Sen & Akshay K K & Harmeet Singh & Paul G. O’Brien, 2023. "Design and Evaluation of a Water-Based, Semitransparent Photovoltaic Thermal Trombe Wall," Energies, MDPI, vol. 16(4), pages 1-15, February.
    6. Stefania Guarino & Pietro Catrini & Alessandro Buscemi & Valerio Lo Brano & Antonio Piacentino, 2021. "Assessing the Energy-Saving Potential of a Dish-Stirling Con-Centrator Integrated Into Energy Plants in the Tertiary Sector," Energies, MDPI, vol. 14(4), pages 1-23, February.
    7. Xiaohang Shen & Nianping Li & Jiao Lu & Yongga A, 2020. "Heating Performance of Solar Building Integrated Wall under Natural Circulation," Energies, MDPI, vol. 13(23), pages 1-22, November.

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