High-Density Mesh Flow Computations by Building-Cube Method

• Published in: Journal of mechanical science and technology Vol. 21; no. 8; pp. 1306 - 1319
• Main Authors: Kim, L.S, Nakahashi, K, Jeong, H.K, Ha, M.Y
• Format: Journal Article
• Language: Korean
• Published: 2007
• Subjects: Building-cube method; High-destiny method; Adaptive mesh; Parallel computation; Cartesian mesh
• ISSN: 1738-494X; 1976-3824

With the conventional computational fluid dynamics (CFD) approaches like unstructured high-density mesh method, the problem about the solution dependencies on the grid and on the physical models isn't completely resolved. In this study, thus, a new approach named Building-Cube Method based on a Cartesian mesh is proposed using a high-density mesh in order to solve the problem of the current CFD approaches. In the present method, a flow field is divided into a number of cubes (squares in 20) of various sizes. Each cube is a computational sub-domain with Cartesian mesh of equal spacing and equal number of nodes. The geometrical size of each cube is determined by adapting to geometry and flow features so as to cope with broadband characteristic lengths of the flow. Equal spacing and equal number of Cartesian mesh in each cube make it easy to parallelize the flow solver and to handle huge data output. The method is applied to several airfoils including NACA0012 and two-element airfoils at relatively low Reynolds number, RAE2822 airfoil with transition trip at high Reynolds number and a four-element airfoil at high Reynolds number. These results validate the capability of the present approach.