Abstract
This paper presents a novel, efficient, edge-based viscous (EBV) discretization for finite-volume, node-centered formulations on tetrahedral grids. This new method is implemented in a practical, unstructured-grid Reynolds-averaged Navier–Stokes solver and applied to viscous-kernel computations that include evaluations of mean flow viscous fluxes, turbulence-model diffusion terms, and the corresponding Jacobian contributions. The EBV method uses an efficient loop over edges and features a compact discretization stencil based on nearest neighbors. This study verifies the EBV method by comparing its accuracy and iterative convergence with those of a well-established method based on a cell-based approach to discretization of viscous fluxes. Multifold efficiency gains for all viscous-kernel computations on tetrahedral grids are reported, leading to a significant reduction of the overall time to solution.
Publisher
American Institute of Aeronautics and Astronautics (AIAA)
Reference42 articles.
1. BarthT. J. “Numerical Aspects of Computing Viscous High Reynolds Number Flows on Unstructured Meshes,” AIAA Paper 1991-0721, 1991. 10.2514/6.1991-721
2. An implicit upwind algorithm for computing turbulent flows on unstructured grids
3. BiedronR. T.CarlsonJ. R.DerlagaJ. M.GnoffoP. A.HammondD. P.JonesW. T.KlebB.Lee-RauschE. M.NielsenE. J.ParkM. A.RumseyC. L.ThomasJ. L.ThompsonK. B.WaldenA. C.WangL.WoodW. A. “FUN3D Manual: 13.7,” NASA TM 2020-5010139, 2020.
4. MavriplisD. J.ManiK. “Unstructured Mesh Solution Techniques Using the NSU3D Solver,” AIAA Paper 2014-0081, 2014. 10.2514/6.2014-0081
5. EliassonP. “EDGE, a Navier-Stokes Solver for Unstructured Grids,” Swedish Defense Research Agency TR FOI-R-0298-SE, Dec. 2001, https://www.foi.se/report-summary?reportNo=FOI-R-0298-SE.
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