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A Platform for Outdoor Real-Time Characterization of Photovoltaic Technologies

Author

Listed:
  • Sammy J. Martínez-Deusa

    (School of Electrical and Electronics Engineering, Universidad del Valle, Calle 13 #100-00, Cali 760043, Colombia)

  • Carlos A. Gómez-García

    (School of Electrical and Electronics Engineering, Universidad del Valle, Calle 13 #100-00, Cali 760043, Colombia)

  • Jaime Velasco-Medina

    (School of Electrical and Electronics Engineering, Universidad del Valle, Calle 13 #100-00, Cali 760043, Colombia)

Abstract

In recent years, thin-film and organic photovoltaic (OPV) technologies have been increasingly used as alternatives to conventional technologies due to their low weight, portability, and ease of installation. Outdoor characterization studies allow knowing the real performances of these photovoltaic (PV) technologies in different environmental conditions. Therefore, to address the above, this article presents the hardware–software design and implementation of an integrated and scalable platform for performing the outdoor real-time characterization of modern PV/OPV technologies located at different altitudes. The platform allows knowing the outdoor performance of PV/OPV technologies in real environmental conditions by acquiring data from different monitoring stations located at different altitudes. The proposed platform allows characterizing solar panels and mini-modules and acquiring relevant information to analyze power generation capacity and efficiency. Furthermore, other devices for new PV technologies characterization can be easily added, achieving a scale-up of the platform. A preliminary study of the outdoor performance of emerging PV/OPV technologies was carried out at three different altitudes in a tropical climate region. From the results, the copper indium gallium selenide (CIGS) technology presents the best outdoor performance with an average PCE of 9.64%; the OPV technology has the best behavior at high temperatures with a voltage loss rate of 0.0206 V/°C; and the cadmium telluride (CdTe) technology is the most affected by temperature, with a voltage loss rate of 0.0803 V/°C.

Suggested Citation

  • Sammy J. Martínez-Deusa & Carlos A. Gómez-García & Jaime Velasco-Medina, 2023. "A Platform for Outdoor Real-Time Characterization of Photovoltaic Technologies," Energies, MDPI, vol. 16(6), pages 1-16, March.
    • Handle: RePEc:gam:jeners:v:16:y:2023:i:6:p:2907-:d:1103648
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    References listed on IDEAS

    as
    1. Alberto Dolara & Sonia Leva & Giampaolo Manzolini & Riccardo Simonetti & Iacopo Trattenero, 2022. "Outdoor Performance of Organic Photovoltaics: Comparative Analysis," Energies, MDPI, vol. 15(5), pages 1-18, February.
    2. Seera, Manjeevan & Tan, Choo Jun & Chong, Kok-Keong & Lim, Chee Peng, 2021. "Performance analyses of various commercial photovoltaic modules based on local spectral irradiances in Malaysia using genetic algorithm," Energy, Elsevier, vol. 223(C).
    3. Freitas, Alessandro M. & Gomes, Rodrigo A.M. & Ferreira, Rafael A.M. & Porto, Matheus P., 2019. "Experimental performance of commercial OPV panels tested outdoor," Renewable Energy, Elsevier, vol. 135(C), pages 1004-1012.
    4. Ustun, Taha Selim & Nakamura, Yasuhiro & Hashimoto, Jun & Otani, Kenji, 2019. "Performance analysis of PV panels based on different technologies after two years of outdoor exposure in Fukushima, Japan," Renewable Energy, Elsevier, vol. 136(C), pages 159-178.
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