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Simulation numérique d'un tube flexible soumis à un écoulement interne

Published online by Cambridge University Press:  11 July 2007

Fabien Huvelin
Affiliation:
EDF R&D, Département Mécanique des Fluides, Énergies et Environnement, 6 quai Watier, 78400 Chatou, France
Élisabeth Longatte
Affiliation:
EDF R&D, Département Mécanique des Fluides, Énergies et Environnement, 6 quai Watier, 78400 Chatou, France
Mhamed Souli
Affiliation:
Laboratoire de Mécanique de Lille, Université des Sciences et Technologies de Lille 1, Cité Scientifique, 1 boulevard Paul Langevin, 59655 Lille, France
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Abstract

Cet article est consacré à la simulation numérique, par couplage externe de codes, de vibrations de structures flexibles induites par écoulements. Une revue des développements réalisés sur les deux codes disciplinaires mis en œuvre est tout d'abord présentée, puis une application au cas d'un tube flexible soumis à un écoulement interne pour de petits déplacements et un écoulement laminaire est proposée.

Type
Research Article
Copyright
© AFM, EDP Sciences, 2007

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References

Blom, J., A monolithical fluid-structure interaction algorithm applied to the piston problem, Computer methods in applied mechanics and engineering 167 (1998) 369391 CrossRef
Etienne, S., Pelletier, D., A general approach to sensitivity analysis of fluid-structure interactions, J. Fluids Structures 21 (2005) 169186 CrossRef
Hübner, B., Walhorn, E., Dinkler, D., A monolithic approach to fluid-structure interaction using space-time finite elements, Computer methods in applied mechanics and engineering 193 (2004) 20872104 CrossRef
Piperno, S., Explicit/implicit fluid/structure staggered procedures with a structural predictor and fluid subcycling for 2d inviscid aeroelastic simulations, Int. J. Numerical Methods in Fluids 25 (1997) 12071226 3.0.CO;2-R>CrossRef
Farhat, C., Lesoinne, M., Stern, P., Lantéri, S., High performance solution of three-dimensional nonlinear aeroelastic problems via parallel partitioned algorithms: methodology and preliminary results, Adv. Eng. Software 28 (1997) 4361 CrossRef
D. Abouri, A. Parry, A. Hamdouni, Fluid-rigid body dynamic interaction in complex industrial flow, Adv. fluid Mechanics: Fluid structure interaction II, Wit Press (2003) 295–305
A. de Boer, A.H. van Zuijlen, H. Bijl, Review of coupling methods for non-matching meshes, Computer methods in applied mechanics and engineering, 2006 doi:10.1016/j.cma.2006.03.017 CrossRef
Farhat, C., Lesoinne, M., LeTallec, P., 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 (1998) 95114 CrossRef
Maman, N., Farhat, C., Matching fluid and structure meshes for aeroelastic computations: a parallel approach, Computers & Structures 54-4 (1995) 779785 CrossRef
J. Donea, A. Huerta, J.-Ph. Ponthot, A. Rodriguez-Ferran, Encyclopedia of Computational Mechanics, Vol. 1: Fundamentals, chapter Chapter 14: Arbitrary Lagrangian-Eulerian Methods, John Wiley & Sons, Ltd, 2004
Souli, M., Zolesio, J.P., ALE formulation for fluid-structure interaction problems, Computer methods in applied mechanics and engineering 191 (2000) 451466 CrossRef
V. Guimet, Analyse numérique et simulation de problèmes d'intéraction fluide-structure en régime incompressible, thèse de doctorat, Université Paris VI, 1998
L. Longatte, V. Verreman, Z. Bendjeddou, M. Souli, Comparison of strong and partitioned fluid structure code coupling methods, in Proceeding of Insert Conference Abbreviation: 2005 ASME Pressure Vessels & Piping, Division Conference, Denver, Colorado, USA, July 17–21, 2005
Farhat, C., Lesoinne, M., Maman, N., Mixed explicit/implicit time integration of coupled aeroelastic problems: three field formulation, geometric conservation and distribution solution, Int. J. Numerical Methods in Fluids 21 (1995) 807835 CrossRef
Piperno, S., Farhat, C., Larrouturou, B., Partitioned procedures for the transient solution of coupled aeroelastic problems – part I: Model problem, theory and two-dimensional application, Computer methods in applied mechanics and engineering 124 (1995) 79112 CrossRef
Thomas, P.D., Lombard, C.K., Geometric conservation law and its application to flow computations on moving grids, AIAA J. 17 (1979) 10301037 CrossRef
Païdoussis, M.P., Dynamics of flexible slender cylinders in axial flox, Part 1, theory, J. Fluid Mech. 26-4 (1966) 717736 CrossRef
J.L. Lopes, M.P. Païdoussis, C. Semler, Linear and nonlinear dynamics of cantilevered cylinders in axial flow, Part 2: the equations of motion, J. Fluids and Structures, 16-6 (2002) 715–737 CrossRef
M.A. Fernandez Varela, Modèles simplifiés d'intéraction fluide-structure, thèse de doctorat, Université Paris IX Dauphine, 2001
J.Y. Renou, Une méthode eulérienne pour le calcul numérique de forces fluides-élastiques, thèse de doctorat, Université Paris VI, 1998