Özet:

In this study, the thermal performance of circular cross-section duct flows with different turbulators was numerically analyzed. The simulations were solved with the Computational Fluid Dynamics (CFD) based Fluent program. In the study, seven turbulator structures consisting of vertical and inclined baffles were used. These turbulators were placed in the center of the duct and the duct surfaces containing the turbulators were maintained at constant temperature (Tw=350K) conditions. Nusselt number (Nu), friction factor (f), and thermal performance factor (TPF) were calculated in two different Reynolds numbers (Re=5000 and Re=10000). Numerical solutions were compared with previous study results and correlations. To observe the effects of turbulators on flow and heat transfer, flow and temperature contours were obtained inside the duct. The study was also compared with the smooth duct flow. The findings showed that the turbulators added in the duct improved the heat transfer and the Nu increased 1.38 times compared to the duct without turbulator. In addition, the heat transfer increased with increasing the duct inlet velocity. The highest heat transfer was found to be Nu=27.17 in the case of Duct 8 at Re=10000 and the highest TPF was obtained to be TPF=1.08 at Re=5000 in the Duct 8.

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