Acceleration of Euler and RANS solvers via Selective Frequency Damping
•The SFD method can accelerate Euler/Navier–Stokes equations flow solvers.•A local value of the filter width can be effective in obtaining faster convergence.•The SFD method can be used to accelerate solver convergence on overset grids. This paper presents the application of a Selective Frequency Da...
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Veröffentlicht in: | Computers & fluids 2018-04, Vol.166, p.46-56 |
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Hauptverfasser: | , |
Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | •The SFD method can accelerate Euler/Navier–Stokes equations flow solvers.•A local value of the filter width can be effective in obtaining faster convergence.•The SFD method can be used to accelerate solver convergence on overset grids.
This paper presents the application of a Selective Frequency Damping (SFD) algorithm as an acceleration technique for the solution of the Euler and Navier–Stokes equations. The SFD method is implemented in a segregated way in a cell-centered finite volume code with added artificial dissipation. Its effect is also analyzed in combination with state of the art acceleration techniques, such as implicit residual smoothing, W-cycle multigrid and local time stepping. The proposed approach relies on the addition of a proportional feedback control and a low-pass filter to the system of equations to damp out targeted frequencies. This method was originally developed for the computation of the steady-state solution of unstable flows. It is here applied to stable cases specifically to enhance the convergence rate to steady state. The method is also applied to overset grid systems for which effective multigrid remains challenging. Significant improvements in the residual convergence rates are found with and without using conventional acceleration techniques. The paper presents the implementation of the SFD algorithm. A verification of the method on a documented application case from the literature is performed. Then, the convergence acceleration provided by the SFD is shown for Euler and Navier-Stokes equations on classic one-to-one grid and overset grid systems. |
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ISSN: | 0045-7930 1879-0747 |
DOI: | 10.1016/j.compfluid.2018.01.027 |