Summary
We are interested by the unsteady fluid-structure coupling with a compressible fluid model performed in a cooperation between an INRIA group in CFD and the Center for Aerospace structure of University of Boulder. A particular focus is put on the fluid part, which involves the MUSCL-FEM technology relying on a vertex centered upwind finite volume formulation for unstructured tetrahedrizations, and a mesh deformation technique combined with an Arbitrary Lagrange-Euler formulation. Three typical applications will then be presented.
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References
C. Farhat, “High Performance Simulation of Coupled non-linear Transient Aeroelastic Problems”, AGARD Report R-807, Special Course on Parallel Computing in CFD (l’A rodynamique numérique et le calcul en parallèle, North Atlantic Treaty Organization (NATO), October 1995.
Donea J., “An Arbitrary Lagrangian-Eulerian Finite Element Method for Transient Fluid-Structure Interactions”, Comput. Meths. Appl. Mech. Engrg. 1982,33, p. 689–723
C. Farhat, M. Lesoinne and N. Maman, “Mixed Explicit/Implicit Time Integration of Coupled Aeroelastic Problems: Three-Field Formulation, Geometric Conservation and Distributed Solution”, Internat. J. Numee. Methc Fluids21(1995) p 807–835
A. Dervieux, “Steady Euler Simulations Using Unstructured Meshes”, Von Karman Institute Lecture Series, 1985.
M. Lesoinne and C. Farhat, “Geometric Conservation Laws for Aeroelastic Computations Using Unstructured Dynamic Meshes”, AIAA Paper 95–1709, 12th AIAA Computational Fluid Dynamics Conference, June 19–22, 1995, San Diego, CA.
B. Nkonga and H. Guillard, “Godunov Type Methods on Non-Structured Meshes for Three-Dimensional Moving Boundary Problems”, Comp. Methods Appl. Mech. Engrg.113(1994) p. 183–204
B. Van Leer, “Towards the Ultimate Conservative Difference Scheme V: a Second-Order Sequel to Godunov’s Method”, J. Comp. Phys. 1979,32, p. 361–370
R. Carpentier, Approximation d’écoulements instationnaires. Application à des instationnarités tourbillonnaires. Thesis, Nice, 1995
E. Schall, C. Viozat, B.Koobus and A. Dervieux, “Low Mach thermical flows with implicit upwind methods”, INRIA report, to appear, 2002
B. Koobus and C. Farhat, “Second-Order Time-Accurate and Geometrically Conservative Implicit Schemes for Flow Computations on Unstructured Dynamic Meshes”, Computer Methods in Applied Mechanics and Engineering,170, p. 103–130 (1999).
R. Martin and H. Guillard, “A Second-Order Defect Correction Scheme for Unsteady Problems”, Comput. and Fluids 1996,25, p.9–27
J.T. Batina, “Unsteady Euler Airfoil Solutions Using Unstructured Dynamic Meshes”, AIAA paper 89–0115, AIAA 27th Aerospace Sciences Meeting, Reno, Nevada, January 9–12, 1989.
C. Farhat, C. Degand, B. Koobus and M. Lesoinne, Torsional Springs for Two-Dimensional Dynamic Unstructured Fluid Meshes, Computer Methods in Applied Mechanics and Engineering,163, pp. 231–245, 1998.
C. Farhat, M. Lesoinne and P. Le Tallec, “Load and Motion Transfer Algorithms for Fluid/Structure Interaction problems with Non-Matching Discrete Interfaces: Momentum and Energy Conservation, Optimal Discretization and Application to Aeroelasticity”, Computer Methods in Applied Mechanics and Engineering,157, pp. 95–114, 1998.
C. Farhat, M. Lesoinne, P. Stern and S. Lanteri, “High Performance Solution Procedure of Three-Dimensional Non-Linear Aeroelastic Problems via Parallel Partitioned Algorithms: Methodology and Preliminary Results”, Advances in Engineering Software, 1997,28, p. 43–61
Farhat C. and Lesoinne M., “On the Accuracy, Stability and Performance of the Solution of Three-Dimensional Non-Linear Transient Aeroelastic Problems by Partitioned Procedures”, AIAA Paper 96–1388, 37th AIAA/ASME/ASCE/AHS /ASC Structures, Structural Dynamics and Materials Conference, April 18–19, 1996, Salt Lake City, UT.
E. Schall, R. Lardat, A. Dervieux, B. Koobus and C. Farhat,“Aeroelastic Coupling between a Thin Divergent and high pressure jets”, Revue Europeenne des Elements Finis,9,6–7, 2000
E. Schall, R. Lardat, A. Dervieux, B. Koobus and C. Farhat,“Aeroelastic Coupling between a Thin Divergent and high pressure jets”, Revue Europeenne des Elements Finis,9, 835–851,2000
R. Lardat, B. Koobus, F. Ruffino, C. Farhat and A. Dervieux, “Premières investigations du couplage fluide-structure autour d’un lanceur spatial générique”, INRIA report 4314, nov. 2001 (in french)
R. Lardat, B. Koobus, E. Schall, A. Dervieux and C. Farhat, “Analysis of a Possible Coupling in a Thrust Inverter”, Revue Europeenne des Elements Finis,9,6–7, 2000
R. Lardat, B. Koobus, E. Schall, A. Dervieux and C. Farhat, “Analysis of a Possible Coupling in a Thrust Inverter”, Revue Europeenne des Elements Finis,9, 819–834,2000
C. Debiez and A. Dervieux, “ Mixed Element Volume MUSCL methods with weak viscosity for steady and unsteady flow calculation”. Computer and Fluids, 1999,29, 89–118
I. Abalakin, T. Kozubskaya, A. Dervieux A vertex centered high order muscl scheme applying to linearised Euler acoustics, INRIA report, 2002
S. Camarri, B. Koobus, M. Salvetti and A. Dervieux, “Numerical diffusion based on high-order derivatives in MUSCL schemes for LES on unstructured grids”, in the proceedings of DLES-4, Direct and Large-Eddy Simulation-IV, July 18–20,2001, Twente (Holland), and INRIA report, 2002
P.-H. Cournede, Ch. Debiez and A. Dervieux “A positive MUSCL scheme for triangulations” INRIA report 3465, 1998
Y. Hoarau, S. Bourdet, M. Braza, B. Koobus, A. Dervieux, LES for supersonic flows with unstructured tetrahedrizations, INRIA report (2002) and IUTAM Symposium on unsteady separated flows, april 8–12, 2002, Toulouse, France
R. Lardat, R. Carpentier, B. Koobus, E. Schall, A. Dervieux, C. Farhat, J.-F Guery. and P. Della Pieta, “Interaction Between a pulsating flow and a perforated membrane”, Revue Europeenne des Elements Finis,9,6–7, 2000
R. Lardat, R. Carpentier, B. Koobus, E. Schall, A. Dervieux, C. Farhat, J.-F Guery. and P. Della Pieta, “Interaction Between a pulsating flow and a perforated membrane”, Revue Europeenne des Elements Finis,9, 805–817,2000
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Dervieux, A., Koobus, B., Schall, E., Lardat, R., Farhat, C. (2003). Application of Unsteady Fluid-Structure Methods to Problems in Aeronautics and Space. In: Barton, N.G., Periaux, J. (eds) Coupling of Fluids, Structures and Waves in Aeronautics. Notes on Numerical Fluid Mechanics and Multidisciplinary Design (NNFM), vol 85. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-44873-0_5
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DOI: https://doi.org/10.1007/978-3-540-44873-0_5
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