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IIR document
Performance analysis of the ejector-expansion refrigeration cycle using zeotropic mixtures.
Use of zeotropic blends in flooded refrigeration loops: consequences and limits.
Thermal and economic performance analysis of zeotropic mixtures for Organic Rankine Cycles.
Energy and exergy analysis of zeotropic mixture R290/R600a vapor-compression refrigeration cycle with separation condensation
Theoretical investigation on an ejector–expansion refrigeration cycle using zeotropic mixture R290/R600a for applications in domestic refrigerator/freezers.
Experimental investigation on flow condensation of zeotropic mixtures of methane/ethane in a horizontal smooth tube.
Comparison of heat transfer and pressure drop correlations for evaporation of zeotropic mixtures in plate heat exchangers.
Energy and exergy analysis of a novel two-stage ejector refrigeration cycle using binary zeotropic mixtures.
2017 standard for specifications for refrigerant.
Zeotropic mixture ejector: Modeling approach, validation, and assessment based on composition ratio.
Performance assessment of residential heat pumps operating in extreme cold climates using zeotropic mixtures.
Experimental investigation of thermophysical properties of lubricant refrigerant mixtures.
Theoretical investigation on the performance of a modified refrigeration cycle using binary zeotropic hydrocarbon mixture R170/R290.
Experimental investigation of the heat conductivity of natural refrigerant oil mixtures.
Recommended by the IIR / IIR document
Zeotropic mixtures in low temperature Rankine cycles.
Refrigeration sector monitoring
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Heat pumps: an approach to select the highest performing refrigerant mixture
One of the most downloaded IJR articles in 2019 concludes that zeotropic mixtures have the potential to significantly improve both the thermodynamic and economic performance of heat pumps in suitable applications.