RT Journal Article ID 46ab693e117bd482 A1 Liu, Xiaoyue A1 Jensen, Michael K. T1 Numerical Investigation of Turbulent Flow and Heat Transfer in Internally Finned Tubes JF Journal of Enhanced Heat Transfer JO JEH(T) YR 1999 FD 1999-09-01 VO 6 IS 2-4 SP 105 OP 119 AB A numerical investigation of periodically fully developed, steady, single-phase, turbulent flow and heat transfer in two spirally finned tubes has been first performed. A two-layer turbulence model was applied to model the near-wall turbulence. An unstructured finite-volume method was employed to resolve the complex geometry of internally finned tubes. The effects of grid independence and skewness were extensively examined. In the range of 6,000 < Re < 70,000 and Pr = 4, the length-averaged friction factors and Nusselt numbers were compared with the experimental data of Vlakancic (1996) to validate the accuracy of the turbulence model and numerical method. The computational results match well with the experimental data. Circumferential local friction factors and Nusselt numbers are presented. These results indicate that spiral fins deliver 37% to 50% of the total heat transfer, and the pressure resistance from the leeward and windward sides of the fins is about 30% to 44% of total friction resistance. PB Begell House LK https://www.dl.begellhouse.com/journals/4c8f5faa331b09ea,70578a4051b2583b,46ab693e117bd482.html