Abstract

A numerical simulation was carried out to investigate the overall thermal conductance of a forced oscillating flow heat transport tube, which was cooled at the outer surface of the tube. In addition, the influence of oscillating frequency, inner diameter, length of the tube, and the heat transfer coefficient on the overall thermal conductance has been studied. The results indicated the thermal conductance of the heat transport tube was higher than that of a copper rod. Furthermore, it was revealed that the heat transport rate of the forced oscillating flow heat transport tube especially enhanced, in case of the length of the tube was 600mm.

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