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Density of the refrigerant fluids of R365mfc and R152a: measurement and prediction.
Method of measuring the vapor pressure and concentration of fluids using VLE and vibrating tube densitometer apparatuses.
Thermodynamic assessment of high temperature heat pumps for heat recovery.
IIR document
Thermodynamic assessment of high-temperature heat pumps using Low-GWP HFO refrigerants for heat recovery.
High temperature heat pump using HFO and HCFO refrigerants: system design, simulation, and first experimental results.
Recommended by the IIR
Numerical analysis for heat driven ejector refrigeration systems for various refrigerants.
Performance assessment and working fluid selection for heat recovery ejector heat pump system in cold climatic conditions.
High temperature heat pumps – Theoretical study on low GWP HFO and HCFO refrigerants.
High temperature heat pump using HFO and HCFO refrigerants – system design and experimental results.
Thermodynamic Analysis and Working Fluid Selection of a Novel Cogeneration System Based on a Regenerative Organic Flash Cycle.
Experimental comparison of R1224yd(Z) and R1233zd(E) in a high temperature heat pump.
Thermophysikalische Eigenschaften eines Kältemittelgemisches aus R-365mfc (1,1,1,3,3-Pentafluorbutan) und Galden HT 55 (Perfluorpolyether).
Thermodynamic properties of a refrigerant mixture of R-365mfc (1,1,1,3,3-pentafluorbutane) and Galden HT 55 (perfluorpolyether).
Performance of ejector cooling system with thermal pumping effect using R141b and R365mfc.
New fluid for high temperature applications.
New fluid for high-temperature applications.
Refrigeration sector monitoring
1 result
Purdue conferences highlights: development of high-temperature heat pumps
High-temperature heat pumps are currently subject to intense R&D work, as illustrated by several papers presented at Purdue last year. All Purdue papers can now be downloaded from the Fridoc database.