Özet:

Abstract: In this study, the heat transfer characteristics of annular and annular jets continuously and simultaneously impinging on an isothermally heated flat surface were numerically investigated. The study was carried out using the RNG k-ε turbulence model with ANSYS Fluent software. Examinations were carried out at two different impact distances (H/D: 2 and 4) between the target surface and the jet exit. In the simulations, different combinations were applied for the Reynolds numbers of the circular and annular jet in the range of 3000≤Re≤15000. Prandtl number (Pr) and other geometric parameters were kept constant. Nusselt numbers on the surface were calculated as a result of the annular jet and the circular jet hitting the target surface simultaneously at different combinations of Reynolds numbers. The velocity and temperature distributions obtained in the solution area for different jet velocities and H/D distances were presented. Numerical results showed that the continuous and simultaneous application of circular and annular jet on the surface has a significant effect on heat transfer improvement compared to only circular and only annular jet impingement. The decrease in the distance between the jet and the target surface caused an increase in heat transfer. The best heat transfer was obtained as Nu=374.85 in the combination of Reiç = 15000 and Redış = 15000 at H/D = 2 distance.

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