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Sine-limiting microcell solar concentrators for space.

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    This study introduces a novel V-cone tailored edge ray concentrator (V-TERC) for microcell concentrating photovoltaics (µCPV) in space. The V-TERC design significantly boosts solar power efficiency and reduces costs for space applications.

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    Area of Science:

    • Optics and Photonics
    • Renewable Energy Technologies
    • Aerospace Engineering

    Background:

    • Microcell concentrating photovoltaics (µCPV) offer potential for enhanced performance and cost reduction in space-based solar power.
    • Existing space µCPV systems face limitations in concentration ratio and specific power.

    Purpose of the Study:

    • To introduce and validate an ultracompact V-cone tailored edge ray concentrator (V-TERC) for space µCPV.
    • To achieve a significant increase in concentration ratio and specific power for space solar applications.

    Main Methods:

    • Nonimaging optics principles were applied to design the V-TERC concentrator.
    • Ray tracing simulations were performed to validate the optical design.
    • A proof-of-concept system with a triple-junction microcell and V-TERC optic was constructed and tested outdoors.

    Main Results:

    • The V-TERC design enables operation near the sine limit, achieving a four-fold increase in concentration ratio for a given acceptance angle and specific power compared to previous designs.
    • Outdoor testing demonstrated a power conversion efficiency of 30% at a geometric gain of 137×.
    • The system achieved a specific power of 90 W kg⁻¹ with an acceptance angle of ±4.5°.

    Conclusions:

    • The V-TERC concentrator represents a record combination of efficiency, gain, and specific power for µCPV systems.
    • This advancement is a significant step towards improving the efficiency and lowering the cost of solar power generation in space.