APPROCHE NUMERIQUE AUX VOLUMES FINIS POUR LE CALCUL DE LA REPONSE DYNAMIQUE DES CHEMINEES D’EQUILIBRE
Abstract
The computation unsteady flow in a pressurized hydraulic system presents many difficulties as well on the practical level as theoretical. In this work, a numerical approach based on the finite volumes method is presented for the simulation of the dynamic response of surge tank. After having presented the hyperbolic differential equations governing the elastic wave propagation, the discretization details of the mathematical model meaning Godunov scheme are given as well as the integration of the source term and the implementation of the boundary conditions. The application covers a typical hydro-electric power plant protected by a surge tank. The results are analyzed and compared with the simplified mass oscillation theory largely used in certain cases.
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BERGERON L. (1949). "Du coup de bélier en hydraulique au coup de foudre en électricité. Méthode graphique générale". Dunod, Paris.
CHAUDHRY M. H. (1979). "Applied hydraulic transients". Van Nostrand.
DE ALMEIDA B., KOELLE E. (1992). "Fluid transients in pipe networks". Computational Mechanics Publications, Elsevier Applied Science, Glasgow.
ESCANDE L. (1950). "Méthodes nouvelles pour le calcul des chambres d’équilibre". Dunod, Paris.
ESCANDE L. (1971). "Hydraulique Générale". Tome 2. Institut National Polytechnique de Toulouse, Ecole Nationale Supérieure d’Electrotechnique d’Electronique, d’Informatique et d’Hydraulique.
EYDOUX D. (1917). "Contribution à la technique de la houille blanche, les mouvements de l’eau et les coups de bélier dans les cheminées d’équilibre". Annales de la Faculté des Sciences de Toulouse, 3eme série, Tome 9, 147-285.
GHIDAOUI M.S., ZHAO M., MCLNNIS D.A., AXWORTH D.H. (2005). "A review of Water hammer Theory and Practice". Transactions of the ASME, Vol. 58, 49-76.
GRIFFITHS D.F., HIGHAM D.J. (2010). "Numerical Methods for Ordinary Differential Equations. Initial Value problems". Springer Undergraduate Mathematics, London.
GUINOT V. (2003). "Godunov-type schemes : an introduction for engineers". Elsevier Science B.V.
GUINOT V. (2008). "Wave Propagation in Fluids : Models and numerical techniques". ISTE Ltd and John Wiley & Sons, Inc.
JAEGER C. (1977). "Fluid transients in hydro-electric engineering practice". Blackie, London.
LEON S.A. (2007). "Improved modeling of unsteady free surface, pressurized and mixed flows in storm-sewer systems ". Thèse de Doctorat de Philisophie (PhD) en Génie civil, Université d’Illinois.
LEON A.S., GHIDAOUI M.S., SCHMIDT A.R., GARCIA M.H. (2009): "Application of Godunov-type schemes to transient mixed flows". Journal of Hydraulic Research, Vol. 47, N° 2, 147–156.
LEVEQUE, R. J. (2002) : "Finite Volume Methods for Hyperbolic Problems". Cambridge University Press, Cambridge.
TORO ELEUTERIO F., GARCIA-NAVARRO P. (2007). "Godunov-type methods for free-surface shallow flows : A review". Journal of Hydraulic Research, Vol. 45, N° 6, 736–751.
WYLIE E.B., STREETER V.L. (1978) : "Fluid transients". MacGraw-Hill.
ZHAO M., GHIDAOUI M. S. (2004). "Godunov-type solutions for water hammer flows". Journal of Hydraulic Engineering, ASCE, 130(4), 341-348.
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