Reduction of dissipation in Lagrange cell-centered hydrodynamics (CCH) through corner gradient reconstruction (CGR)

Reduction of dissipation in Lagrange cell-centered hydrodynamics (CCH) through corner gradient reconstruction (CGR)

This work presents an extension of a second order cell-centered hydrodynamics scheme on unstructured polyhedral cells [13] toward higher order. The goal is to reduce dissipation, especially for smooth flows. This is accomplished by multiple piecewise linear reconstructions of conserved quantities wi...

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Veröffentlicht in:Journal of computational physics 2015-10, Vol.299 (C), p.229-280
Hauptverfasser: Burton, D.E., Morgan, N.R., Carney, T.C., Kenamond, M.A.
Format: Artikel
Sprache:eng
Schlagworte:
CCH
Cell-centered
CGR
Computational fluid dynamics
Corner gradient reconstruction
Corners
Dissipation
Finite-volume
Fluid flow
Godunov
Higher-order
Hydrodynamics
Lagrangian
Mathematical analysis
Polynomials
Reconstruction
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Zusammenfassung:This work presents an extension of a second order cell-centered hydrodynamics scheme on unstructured polyhedral cells [13] toward higher order. The goal is to reduce dissipation, especially for smooth flows. This is accomplished by multiple piecewise linear reconstructions of conserved quantities within the cell. The reconstruction is based upon gradients that are calculated at the nodes, a procedure that avoids the least-square solution of a large equation set for polynomial coefficients. Conservation and monotonicity are guaranteed by adjusting the gradients within each cell corner. Results are presented for a wide variety of test problems involving smooth and shock-dominated flows, fluids and solids, 2D and 3D configurations, as well as Lagrange, Eulerian, and ALE methods.
ISSN:0021-9991
1090-2716
DOI:10.1016/j.jcp.2015.06.041