Solutions of the Taylor-Green Vortex Problem Using High-Resolution Explicit Finite Difference Methods
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A computational fluid dynamics code that solves the compressible Navier-Stokes equations was applied to the Taylor-Green vortex problem to examine the code s ability to accurately simulate the vortex decay and subsequent turbulence. The code, WRLES (Wave Resolving Large-Eddy Simulation), uses explicit central-differencing to compute the spatial derivatives and explicit Low Dispersion Runge-Kutta methods for the temporal discretization. The flow was first studied and characterized using Bogey & Bailley s 13-point dispersion relation preserving (DRP) scheme. The kinetic energy dissipation rate, computed both directly and from the enstrophy field, vorticity contours, and the energy spectra are examined. Results are in excellent agreement with a reference solution obtained using a spectral method and provide insight into computations of turbulent flows. In addition the following studies were performed: a comparison of 4th-, 8th-, 12th- and DRP spatial differencing schemes, the effect of the solution filtering on the results, the effect of large-eddy simulation sub-grid scale models, and the effect of high-order discretization of the viscous terms. DeBonis, James R. Glenn Research Center WBS 561581.02.08.03.48.01
Format:Paperback
Language:English
ISBN:1793963770
ISBN13:9781793963772
Release Date:January 1
Publisher:Independently Published
Length:30 Pages
Weight:0.21 lbs.
Dimensions:0.1" x 8.5" x 11.0"
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