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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 Ostergaard, Torben Ommen, Martin Ryhl Kærn, Hatef Madani, Brian Elmegaard

2024International Journal of Refrigeration10 citationsDOIOpen Access PDF

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.

Topics & Concepts

RefrigerantDimethyl etherIsobutanePropaneThermodynamicsAir source heat pumpsCoefficient of performanceMaterials scienceChemistryOrganic chemistryMethanolHeat exchangerCatalysisPhysicsRefrigeration and Air Conditioning TechnologiesBuilding Energy and Comfort OptimizationHeat Transfer and Optimization
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