Numerical experiments were carried out on the high speed driven cavity flows in 2D curved channels to investigate mainly the pressure field. A density-based algorithm in ANSYS Fluent 13.0 was used in the present URANS simulations. The SST k- ω model was used for modeling the turbulence within an unstructured mesh solver. Validation of the numerical code was accomplished, and the results showed a good agreement between the numerical simulation and experimental data. Three channels (straight, concave and convex) with a nominal height of H = 4 × 10 −3 m under the transonic flow conditions were considered in the study. The cavity studied is L = 12 × 10 −3 m long with the depth ranging from D = 12 × 10 −3 m to 48 × 10 −3 m to obtain the length-to-depth ratios of L /D=1 to 1 /4. The study comprised the analysis of the cavity surface pressures and the associated flow structures. The channel configuration influenced the cavity flowfield, and that influence finally resulted in a change in the surface pressure fluctuations in the cavity. The deep cavity attenuated the flowfield oscillation inside the cavity.
Alam, M. M. A., Setoguchi, T., Takao, M., & Kim, H. D. (2016). Numerical Analysis of the High Speed Driven Cavity Flow in 2-D Curved Channel. Journal of Applied Fluid Mechanics, 9(2), 529-536. doi: 10.18869/acadpub.jafm.68.225.24284
MLA
M. M. A. Alam; T. Setoguchi; M. Takao; H. D. Kim. "Numerical Analysis of the High Speed Driven Cavity Flow in 2-D Curved Channel", Journal of Applied Fluid Mechanics, 9, 2, 2016, 529-536. doi: 10.18869/acadpub.jafm.68.225.24284
HARVARD
Alam, M. M. A., Setoguchi, T., Takao, M., Kim, H. D. (2016). 'Numerical Analysis of the High Speed Driven Cavity Flow in 2-D Curved Channel', Journal of Applied Fluid Mechanics, 9(2), pp. 529-536. doi: 10.18869/acadpub.jafm.68.225.24284
VANCOUVER
Alam, M. M. A., Setoguchi, T., Takao, M., Kim, H. D. Numerical Analysis of the High Speed Driven Cavity Flow in 2-D Curved Channel. Journal of Applied Fluid Mechanics, 2016; 9(2): 529-536. doi: 10.18869/acadpub.jafm.68.225.24284
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