R245fa Flow Boiling inside a 4.2 mm ID Microfin Tube

This paper presents the R245fa flow boiling heat transfer and pressure drop measurements inside a mini microfin tube with internal diameter at the fin tip of 4.2 mm, having 40 fins, 0.15 mm high with a helix angle of 18 degrees. The tube was brazed inside a copper plate and electrically heated from the bottom. Sixteen T-type thermocouples are located in the copper plate to monitor the wall temperature. The experimental measurements were carried out at constant mean saturation temperature of 30 degrees C, by varying the refrigerant mass velocity between 100 kg m(-2) s(-1) and 300 kg m(-2) s(-1), the vapour quality from 0.15 to 0.95, at two different heat fluxes: 30 and 60 kW m(-2). The experimental results are presented in terms of two-phase heat transfer coefficient, onset dryout vapour quality, and frictional pressure drop. Moreover, the experimental measurements are compared against the most updated models for boiling heat transfer coefficient and frictional pressure drop estimations available in the open literature for microfin tubes.