Özet:

In this study, the high numbers of Reynolds and Mach around the double elips structure and the current in the 30 degrees of attack angle were analyzed using the Cartezyen-based flow solution. For analysis, a local-developed, hierarchical (originally, children and neighboring cells are defined as connected) Cartezyen network techniques based on Calculated Fluid Dynamics (HAD) is used. First, information was given about the Kartezyen network methods used in the network development codes, in the second step the explanations were made accompanied by the equations of the numerical methods in the flow solution, and finally, the numerical analysis of the flow around the chosen sample study was made. For the verification work, the double (simple) elips structure is around 16.7 million with the number of Reynolds 8. The flow is selected in the number of 15 Mach and in the angle of attack of 30 degrees. The main reason for the choice of this study is to ensure that under this flow the shock of the bow and the surface-cannopy shock can be captured simultaneously. Liou's up-transmitted separation method has achieved the distribution of the pressure fixers around the elliptical structure. Sensitive solutions have been developed on the two-dimensional double elips structure of turbulent and compressable flow assumptions. The multi-layer network method has increased the proximity rate of the stream solver. The results are compared to recent scientific studies. Both the foam nose (bow nose) shock and sharp cover (canopy) shock were captured by a successful and properly flow solver. The number of Mach contours around the building have been successfully compared, and it has been observed that the values in reference studies are varied. In the last section, the results were discussed and forecasts were made about the work that could be done in the future.

Anahtar Kelimeler:

Anahtar Kelimeler: