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Experimental evaluation of the CO2-based mixture CO2/C6F6 in a recuperated transcritical cycle

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  • Illyés, Viktoria Carmen
  • Di Marcoberardino, Gioele
  • Werner, Andreas
  • Haider, Markus
  • Manzolini, Giampaolo

Abstract

Zeotropic CO2-based mixtures as working fluids in the power block have the potential to enhance concentrated solar power (CSP) plants and other high-temperature heat source applications. One promising working fluid is the CO2/C6F6 mixture, which enables condensation at 50 °C – a necessity when dry cooling with ambient air. Given the many theoretical studies on topics such as potential, optimized performance, or economic assessments, an experimental validation and a reality-check in a facility of significant size is required to vindicate further research. The experimental campaign was performed on pure CO2 and the CO2/C6F6 mixture in two compositions in a test facility (recuperated transcritical cycle). The long-term test (170h) revealed no operational issues, including no signs of thermal degradation. However, a composition shift - an effect previously regarded as an issue in closed cycles with zeotropic mixtures - affected the conditions at the vapor-liquid-equilibrium in the systems tank but also self-stabilizes the system to remain condensing, even at higher ambient air temperatures. The successful proof-of-concept at cycle temperatures of up to 500 °C – significantly higher than earlier studies on mixtures reported (<300 °C) – justifies further research in this area.

Suggested Citation

  • Illyés, Viktoria Carmen & Di Marcoberardino, Gioele & Werner, Andreas & Haider, Markus & Manzolini, Giampaolo, 2024. "Experimental evaluation of the CO2-based mixture CO2/C6F6 in a recuperated transcritical cycle," Energy, Elsevier, vol. 313(C).
    • Handle: RePEc:eee:energy:v:313:y:2024:i:c:s0360544224034911
    DOI: 10.1016/j.energy.2024.133713
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    1. Mir M. Ali & Thanh Lu & Johanna Catherine Maclean & Angélica Meinhofer, 2024. "Mental Health, Substance Use, and Child Maltreatment," NBER Working Papers 32895, National Bureau of Economic Research, Inc.
    2. Liu, Qiang & Duan, Yuanyuan & Yang, Zhen, 2014. "Effect of condensation temperature glide on the performance of organic Rankine cycles with zeotropic mixture working fluids," Applied Energy, Elsevier, vol. 115(C), pages 394-404.
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