Winters, Andrew R., Moura, Rodrigo C., Mengaldo, Gianmarco ORCID: 0000-0002-0157-5477, Gassner, Gregor J., Walch, Stefanie, Peiro, Joaquim ORCID: 0000-0001-8859-4912 and Sherwin, Spencer J. (2018). A comparative study on polynomial dealiasing and split form discontinuous Galerkin schemes for under-resolved turbulence computations. J. Comput. Phys., 372. S. 1 - 22. SAN DIEGO: ACADEMIC PRESS INC ELSEVIER SCIENCE. ISSN 1090-2716

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Abstract

This work focuses on the accuracy and stability of high-order nodal discontinuous Galerkin (DG) methods for under-resolved turbulence computations. In particular we consider the inviscid Taylor-Green vortex (TGV) flow to analyse the implicit large eddy simulation (iLES) capabilities of DG methods at very high Reynolds numbers. The governing equations are discretised in two ways in order to suppress aliasing errors introduced into the discrete variational forms due to the under-integration of non-linear terms. The first, more straightforward way relies on consistent/over-integration, where quadrature accuracy is improved by using a larger number of integration points, consistent with the degree of the non-linearities. The second strategy, originally applied in the high-order finite difference community, relies on a split (or skew-symmetric) form of the governing equations. Different split forms are available depending on how the variables in the non-linear terms are grouped. The desired split form is then built by averaging conservative and non-conservative forms of the governing equations, although conservativity of the DG scheme is fully preserved. A preliminary analysis based on Burgers' turbulence in one spatial dimension is conducted and shows the potential of split forms in keeping the energy of higher-order polynomial modes close to the expected levels. This indicates that the favourable dealiasing properties observed from split-form approaches in more classical schemes seem to hold for DG. The remainder of the study considers a comprehensive set of (under-resolved) computations of the inviscid TGV flow and compares the accuracy and robustness of consistent/over-integration and split form discretisations based on the local Lax-Friedrichs and Roe-type Riemann solvers. Recent works showed that relevant split forms can stabilize higher-order inviscid TGV test cases otherwise unstable even with consistent integration. Here we show that stable high-order cases achievable with both strategies have comparable accuracy, further supporting the good dealiasing properties of split form DG. The higher-order cases achieved only with split form schemes also displayed all the main features expected from consistent/over-integration. Among test cases with the same number of degrees of freedom, best solution quality is obtained with Roetype fluxes at moderately high orders (around sixth order). Solutions obtained with very high polynomial orders displayed spurious features attributed to a sharper dissipation in wavenumber space. Accuracy differences between the two dealiasing strategies considered were, however, observed for the low-order cases, which also yielded reduced solution quality compared to high-order results. (C) 2018 The Author(s). Published by Elsevier Inc.

Item Type: Journal Article
Creators:
CreatorsEmailORCIDORCID Put Code
Winters, Andrew R.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Moura, Rodrigo C.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Mengaldo, GianmarcoUNSPECIFIEDorcid.org/0000-0002-0157-5477UNSPECIFIED
Gassner, Gregor J.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Walch, StefanieUNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Peiro, JoaquimUNSPECIFIEDorcid.org/0000-0001-8859-4912UNSPECIFIED
Sherwin, Spencer J.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
URN: urn:nbn:de:hbz:38-168830
DOI: 10.1016/j.jcp.2018.06.016
Journal or Publication Title: J. Comput. Phys.
Volume: 372
Page Range: S. 1 - 22
Date: 2018
Publisher: ACADEMIC PRESS INC ELSEVIER SCIENCE
Place of Publication: SAN DIEGO
ISSN: 1090-2716
Language: English
Faculty: Unspecified
Divisions: Unspecified
Subjects: no entry
Uncontrolled Keywords:
KeywordsLanguage
SPECTRAL VANISHING VISCOSITY; LARGE-EDDY SIMULATIONS; NONLINEAR CONSERVATION-LAWS; NAVIER-STOKES EQUATIONS; UNSTRUCTURED GRIDS; DIFFERENCE-SCHEMES; MULTISCALE METHOD; ELEMENT METHODS; VOLUME METHOD; FLOWMultiple languages
Computer Science, Interdisciplinary Applications; Physics, MathematicalMultiple languages
Refereed: Yes
URI: http://kups.ub.uni-koeln.de/id/eprint/16883

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