Litcius/Paper detail

Mixture Model for Refrigerant Pairs R-32/1234yf, R-32/1234ze(E), R-1234ze(E)/227ea, R-1234yf/152a, and R-125/1234yf

Ian H. Bell

2023Journal of Physical and Chemical Reference Data10 citationsDOIOpen Access PDF

Abstract

In this work, thermodynamic models based on the corresponding states framework with departure terms are developed for the refrigerant pairs R-32/1234yf, R-32/1234ze(E), R-1234ze(E)/227ea, R-1234yf/152a, and R-125/1234yf. These models are based on new measurements of density, speed of sound, and phase equilibria, combined with the data available in the literature. The model for R-32/1234yf is most comprehensive in its data coverage, with speed of sound deviations within 1%, density deviations within 0.1%, and bubble- and dew-point pressure deviations within 1%. The other mixtures have generally more limited data availability but a similar goodness of fit.

Topics & Concepts

RefrigerantThermodynamicsDew pointWork (physics)ChemistryBubble pointBubblePhysicsMechanicsGas compressorRefrigeration and Air Conditioning TechnologiesPhase Equilibria and ThermodynamicsAdvanced Thermodynamic Systems and Engines
Mixture Model for Refrigerant Pairs R-32/1234yf, R-32/1234ze(E), R-1234ze(E)/227ea, R-1234yf/152a, and R-125/1234yf | Litcius