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IIR document
A numerical investigation of flow boiling of non-azeotropic and near-azeotropic binary mixtures.
The experimental study of PVTx properties of near azeotropic mixture refrigerant R290/R134a.
[In Chinese. / En chinois.]
Experimental study on flow boiling heat transfer of a new azeotropic mixture of R1234ze(E)/R600a in a horizontal tube.
Condensation heat transfer and pressure drop of azeotropic mixture refrigerant R32/R1270 inside horizontal small-diameter tubes.
Prediction of ternary azeotropic refrigerants containing ammonia.
Flammability limits of theoretical azeotropic mixtures consist of R1243zf, RE170 and flame retardants (R13I1, R134a, or R227ea).
Fundamentals to commercialization: using membranes, porous media, and ionic liquids for the separation of azeotropic refrigerant mixtures.
Simulation on vapor liquid equilibria of R1234yf/R290/R134a ternary system.
Experimental investigation on vapor liquid equilibrium and azeotropic behavior for the 1,1,1,2-tetrafluoroethane (R134a) + propane (R290) system at temperatures from 253.15 to 303.15 K.
Measurements of isothermal vapour–liquid equilibrium for the 2,3,3,3-tetrafluoroprop-1-ene?+?propane system at temperatures from 253.150 to 293.150?K.
Theoretical study and experimental verification of the viscosities of azeotropic refrigerant R515B.
Evaluation of potential use of R1132A as a refrigerant blend component.
Two-phase flow and heat transfer of a non azeotropic mixture inside a single microchannel.
Intermittent operation of vapor compression air-conditioning system using low GWP refrigerant.
Refrigeration sector monitoring
1 result
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.