Abstract
An in-depth physical analysis of turbulent flow and heat transfer mechanisms in internally finned tubes is presented. For a trapezoidal fin shape, the numerical analysis produced a series of full flow visualizations to clarify the governing mechanisms in fin tube flow. The parametric study explored the effects of number of fins N, nondimensional fin height H, helix angle γ, and fin width s on both friction and heat transfer. Three representative fin tube geometries in the range of , and , were studied. In the literature, the governing physics of tall fin and microfin tubes are believed to be different. However, the current visualization results suggest that there is a continuum in the governing flow physics regardless of fin geometry.
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