Document IIF
Étude expérimentale du transfert de chaleur du R1234yf supercritique en remplacement du R134a dans un tube horizontal à micro ailettes.
Experimental study of the heat transfer of supercritical R1234yf as a substitute for R134a in a horizontal micro-fin tube.
Résumé
R1234yf is regarded as an ideal substitute for R134a in supercritical organic Rankine cycles. This study experimentally analyzed the convective heat transfer coefficients of supercritical R1234yf in a micro-fin tube. The experiments show the influence of the system operating parameters including pressure, heat flux and mass flux on the heat transfer. Then, this paper compares the heat transfer rates for R1234yf and R134a at supercritical pressures and the ability of existing correlations to predict the heat transfer coefficients with R1234yf. The results show that as q/G increases, the buoyancy increases Nubottom, while the variations in Nutop are divided into two regions based on the bulk fluid enthalpy. The influence of pressure on the heat transfer is also related to the bulk fluid enthalpy. When the bulk fluid enthalpy is less than a critical value, Nubottom and Nutop both increase with decreasing pressure and then decrease above this critical enthalpy. The heat transfer coefficient is no longer enhanced at the top with large buoyancy forces. For low mass fluxes, the heat transfer coefficients of R134a and R1234yf are similar. For high mass fluxes, the heat transfer coefficients of R134a are higher than those of R1234yf. The Wang correlation, that was based on R134a data, more accurately predicts the heat transfer coefficients than other correlations for supercritical R1234yf in the horizontal micro-fin tube. Among all the 4050 experimental points, 90.17% of Nutop and 84.49% of Nubottom were predicted with errors of less than 30% by the Wang correlation.
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Détails
- Titre original : Experimental study of the heat transfer of supercritical R1234yf as a substitute for R134a in a horizontal micro-fin tube.
- Identifiant de la fiche : 30030455
- Langues : Anglais
- Sujet : Alternatives aux HFC
- Source : International Journal of Refrigeration - Revue Internationale du Froid - vol. 144
- Date d'édition : 12/2022
- DOI : http://dx.doi.org/10.1016/j.ijrefrig.2022.07.003
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