Journal
JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME
Volume 124, Issue 3, Pages 413-420Publisher
ASME-AMER SOC MECHANICAL ENG
DOI: 10.1115/1.1423906
Keywords
channel flow; convection; heat transfer; microscale; refrigeration; supercritical fluids
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Heat transfer from supercritical carbon dioxide flowing in horizontal mini/micro circular tabes cooled at a constant temperature has been investigated experimentally. Six stainless steel circular tubes having inside-diameters of 0.50 mm, 0.70 mm, 1.10 mm, 1.40 mm, 1.55 mm, and 2.16 nun were tested. Measurements were carried out for the pressures ranging from 74 to 120 bar, the temperatures ranging from 20 to 110degreesC, and the mass flow rates ranging from 0.02 to 0.2 kg/min. It is found that the buoyancy effect was still significant, although supercritical CO2 was in forced motion through the horizontal tubes at Reynolds numbers up to 10(5). The experimental results also indicate that the existing correlations developed in the previous studies for large tubes deviate significantly from the experimental data for the present mini/micro tubes. Based oil the experimental data, a correlation was developed for the axially averaged Nusselt number in terms of appropriate dimension less parameters for forced convection of supercritical carbon dioxide in horizontal mini/micro tubes cooled at a constant temperature.
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