Abstract
The spatially periodic turbulent heat transfer and friction in a rectangular passage of width-to-height ratio of 4:1 with perforated rectangular ribs detached from one wall have been studied using laser holographic interferometry, smoke-streak flow visualization, and pressure probing for rib-to-duct hydraulic diameter ratios ( H/De) of 0.081, 0.106, and 0.162 and Reynolds number ( Re) range of 5 × 10 3−5 × 10 4. The rib pitch-to-height ratio and the detached distance-to-rib-height ratio are 10 and 0.38, respectively. The laser-Doppler velocimetry measurements were performed to illustrate the local Nusselt number distribution. In contrast to the attached solid-type ribs which provide a monotonic decrease of thermal performance at a constant pumping power ( Nu p / Nu s ∗ ) with increasing rib height, the detached perforated-type ribs give a best Nu p / Nu s ∗ at a moderate rib height H/ De = 0.106 for the lower Re range and a Nu p / Nu s ∗ independent of H/De for the higher Re range. In addition, the thermal performance of the detached solid-type ribs is found to be superior to that of the detached perforated-type ribs and the physical reason for the difference is addressed.
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