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Experimental performance of an ultra-low-cost solar photovoltaic-thermal (PVT) collector using aluminum minichannels and nonimaging optics

Author

Listed:
  • Widyolar, Bennett
  • Jiang, Lun
  • Brinkley, Jordyn
  • Hota, Sai Kiran
  • Ferry, Jonathan
  • Diaz, Gerardo
  • Winston, Roland

Abstract

Electricity, space heating, and hot water are ubiquitous needs among modern buildings. Solar photovoltaic/thermal (PVT) technologies are well suited to provide all of these in a distributed and renewable manner, however, the high cost of current PVT technologies remains a major barrier to implementation as the technology competes for roof space with low cost standalone PV modules. In an effort to reduce costs, a new type of solar PVT collector has been developed which replaces the traditional packaging materials with a low cost nonimaging optic and replaces sheet-and-tube heat exchange materials with a low cost and thermally efficient aluminum minichannel. A 1.2 m2 aperture prototype built using silicon SunPower solar cells has demonstrated 57.4% thermal efficiency and 12.3% electric efficiency at ambient temperature and a maximum (stagnation) temperature around 80 °C. Extrapolating this performance shows the PVT collector will to generate 226 kW-hours (kWh) of electricity and 603 kWh of heat per square meter each year for a solar resource of 5.5 kWh/m2/day, and by doing so avoid 1280 kWh of natural gas consumption and 183.8 kg of CO2 emissions. Technical performance is comparable with commercial PVT systems today, but with a much lower estimated module cost of $81/m2 ($0.54/WDC). A side-by-side analysis indicates the PVT collector can be installed for 85% of the capital cost of side-by-side PV + T with only 70% of the required roof space.

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  • Widyolar, Bennett & Jiang, Lun & Brinkley, Jordyn & Hota, Sai Kiran & Ferry, Jonathan & Diaz, Gerardo & Winston, Roland, 2020. "Experimental performance of an ultra-low-cost solar photovoltaic-thermal (PVT) collector using aluminum minichannels and nonimaging optics," Applied Energy, Elsevier, vol. 268(C).
    • Handle: RePEc:eee:appene:v:268:y:2020:i:c:s0306261920304062
    DOI: 10.1016/j.apenergy.2020.114894
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    References listed on IDEAS

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