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Titre :
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Multigrid computation of incompressible flows using two-equation turbulence models : Part 2. Applications
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Auteurs :
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X. Zheng ;
C. Liao ;
C. Liu ;
AL Et
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|
Type de document :
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article/chapitre/communication
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Année de publication :
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1997
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|
Format :
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p.900-905
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Langues:
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= Anglais
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Catégories :
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THERMIQUE THERMODYNAMIQUE
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Mots-clés:
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MECANIQUE DES FLUIDES
;
COMPRESSIBILITE
;
MODELE
;
ECOULEMENT TURBULENT
;
EQUATION DE NAVIER STOKE
;
APPLICATION
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Résumé :
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In this paper, computational results are presented for three-dimensional high-Reynolds number turbulent flows over a simplified submarine model. The simulation is based on the solution of Reynolds-Averaged Navier-Stokes equations and two-equation turbulence models by using a preconditioned time-stepping approach. A multi-block method, in which the block loop is placed in the inner cycle of a multi-grid algorithm, is used to obtain versatility and efficiency, It was found that the calculated body drag, lift, side force coefficients and moments at various angles of attack or angles of drift are in excellent agreement with experimental data. Fast convergence has been achieved for all the crises with large angles of attack and with modest drift angles.
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Source :
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Journal of fluid engineering, vol 119
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