A Residual-Based Compact Scheme for the Compressible Navier–Stokes Equations |
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| Authors: | Alain Lerat Christophe Corre |
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| Affiliation: | SINUMEF Laboratory, ENSAM, 151, Boulevard de l'Hopital, Paris, 75013, Francef1 |
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| Abstract: | A simple and efficient time-dependent method is presented for solving the steady compressible Euler and Navier–Stokes equations with third-order accuracy. Owing to its residual-based structure, the numerical scheme is compact without requiring any linear algebra, and it uses a simple numerical dissipation built on the residual. The method contains no tuning parameter. Accuracy and efficiency are demonstrated for 2-D inviscid and viscous model problems. Navier–Stokes calculations are presented for a shock/boundary layer interaction, a separated laminar flow, and a transonic turbulent flow over an airfoil. |
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| Keywords: | Abbreviations: high accuracyAbbreviations: compact schemeAbbreviations: multidimensionalAbbreviations: Navier–Stokes equationsAbbreviations: compressible flowAbbreviations: aerodynamics |
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