Natural refrigerant mixtures in low-charge heat pumps: An analysis of the potential for performance enhancements

Matteo Caramaschi*, Jonas Kjær Jensen, Stefano Poppi, Kasper Korsholm Østergaard, Torben Schmidt Ommen, Martin Ryhl Kærn, Hatef Madani, Brian Elmegaard

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

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Abstract

The study investigated the characteristics of different natural refrigerants and their mixtures in a residential heat pump with low refrigerant charge. Three main evaluation criteria were utilized for comparing different mixtures: Coefficient of Performance (COP), Volumetric Heating Capacity (VHC), and a newly proposed indicator, the heating capacity at charge limit. Propane was used as a reference refrigerant. It was found that some mixtures significantly improved both COP and the heating capacity at charge limit while maintaining similar volumetric heating capacity and operating conditions. Alternative multi-criteria decision-making techniques were adopted to rank the best refrigerant mixtures. Mixtures rich in Dimethyl Ether (DME), such as DME-CO2 [0.96-0.04] and DME-Propylene [0.75-0.25] were found consistently among the best options. Those were followed by Propylene-rich mixtures such as Propylene-CO2, Propylene-Isobutane and Propylene-Butane. The levelized cost of heat (LCOH) could be improved by up to 12 %. To accelerate the transition to natural refrigerants, without compromises on efficiency and costs, further research and certification activities on non-fluorinated refrigerants based on Dimethyl Ether (R-E170), CO2 (R-744) and Propylene (R-1270) are recommended.
Original languageEnglish
JournalInternational Journal of Refrigeration
Volume165
Pages (from-to)70-83
ISSN0140-7007
DOIs
Publication statusPublished - 2024

Keywords

  • Capacity
  • Flammability
  • Heat pumps
  • Low-charge
  • Mixtures
  • Natural refrigerants
  • Faible charge
  • Frigorigènes naturels
  • Inflammabilité
  • Mélanges zéotropes
  • Pompes à chaleur
  • Puissance de chauffage

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