An implicit high order cell-centered finite volume scheme for the solution of three-dimensional navier-stokes equations on unstructured grids

Vigneron, Didier; Vaassen, Jean-Marc; Essers, Jean-André

Paper published in a book (Scientific congresses and symposiums)

Vigneron, Didier; Vaassen, Jean-Marc; Essers, Jean-André

2005 • In Bathe, Klaus-Jurgen (Ed.) Computational Fluid And Solid Mechanics 2005: Proceedings Third MIT Conference on Computational Fluid and Solid Mechanics, June 14-17 2005

Peer reviewed

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https://hdl.handle.net/2268/260815

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Abstract :

[en] This paper presents a finite volume solver for the computation of three-dimensional viscous flows. A cell-centered approach is used and a quadratic reconstruction of the unknowns is performed to compute the advective fluxes on the cell faces. The gradients of the variables, necessary for the viscous fluxes, are constructed using Coirier’s diamond path. A extended version of this method is proposed in this paper to ensure the consistency of the method whatever the distortion of the grid. A fully implicit time integration procedure is employed with a preconditioned matrix-free GMRES solver.

Disciplines :

Aerospace & aeronautics engineering
Physics
Mathematics

Author, co-author :

Vigneron, Didier ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > LTAS - Aérodynamique

Vaassen, Jean-Marc

Essers, Jean-André ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > LTAS - Aérodynamique

Language :

English

Title :

An implicit high order cell-centered finite volume scheme for the solution of three-dimensional navier-stokes equations on unstructured grids

Publication date :

June 2005

Event name :

Third MIT conference on Computational Fluid and Solid Mechanics

Event organizer :

MIT

Event place :

Boston, United States

Event date :

du 14 juin au 17 juin 2005

Audience :

International

Main work title :

Computational Fluid And Solid Mechanics 2005: Proceedings Third MIT Conference on Computational Fluid and Solid Mechanics, June 14-17 2005

Editor :

Bathe, Klaus-Jurgen

Publisher :

Elsevier

ISBN/EAN :

9780080444765

Pages :

923-927

Peer reviewed :

Peer reviewed

Available on ORBi :

since 09 June 2021

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Bibliography

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Coirier WJ. An adaptively-refined, cartesian, cell-based scheme for the Euler and Navier-Stokes equations. PhD thesis, University of Michigan, June 1994.
Saad Y, Schultz MH. GMRES: a Generalized Minimum Residual algorithm for solving non-symmetric linear systems. SIAM J Sci Stat Comput 1986;7(3):856-869.
Roe PL. Approximate Riemann solver, parameter vectors and difference scheme. J Comput Phys 1981;43:357-372.
Liou MS, Steffen JC. A new flux splitting scheme. J Comput Phys 1993;107:23-39.
Mulder WA, van Leer B. Experiments with implicit upwind methods for the Euler equations. J Comput Phys 1985;59:232-246.
Geuzaine P, Essers J-A, Lepot I, Meers F. Multilevel Newton-Krylov algorithms for computing compressible flows on unstructured meshes. AIAA Paper 99-3341, 1999.
Hakkinen RJ, Greber I, Trilling L, Abarbanel SS. The interaction of an oblique shock wave with a laminar boundary layer. NASA Memo 2-18-59W, 1959.
Essers J-A, Delanaye M, Rogiest P. An upwind-biased finite-volume technique solving compressible Navier- Stokes equations on irregular meshes. Applications to supersonic blunt-body flows and shock-boundary layer interactions. In: Proc of 11th AIAA Computational Fluid Dynamics Conference, June 1993, AIAA-93-3377.
Batchelor GK. An Introduction to Fluid Dynamics. Cambridge: Cambridge University Press, 1967.