Unsteady cavitation in a Venturi-type section was simulated by two-dimensional computations of viscous, compressible, and turbulent cavitating flows. The numerical model used an implicit finite volume scheme (based on the SIMPLE algorithm) to solve Reynolds-averaged Navier-Stokes equations, associated with a barotropic vapor/liquid state law that strongly links the density variations to the pressure evolution. To simulate turbulence effects on cavitating flows, four different models were implemented (standard RNG; modified RNG; with and without compressibility effects), and numerical results obtained were compared to experimental ones. The standard models RNG and without compressibility effects lead to a poor description of the self-oscillation behavior of the cavitating flow. To improve numerical simulations by taking into account the influence of the compressibility of the two-phase medium on turbulence, two other models were implemented in the numerical code: a modified model and the model including compressibility effects. Results obtained concerning void ratio, velocity fields, and cavitation unsteady behavior were found in good agreement with experimental ones. The role of the compressibility effects on turbulent two-phase flow modeling was analyzed, and it seemed to be of primary importance in numerical simulations.
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January 2003
Technical Papers
Evaluation of the Turbulence Model Influence on the Numerical Simulations of Unsteady Cavitation
J. L. Reboud
J. L. Reboud
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O. Coutier-Delgosha
R. Fortes-Patella
J. L. Reboud
Contributed by the Fluids Engineering Division for publication in the JOURNAL OF FLUIDS ENGINEERING. Manuscript received by the Fluids Engineering Division August 7, 2001; revised manuscript received May 6, 2002. Associate Editor: J. Katz.
J. Fluids Eng. Jan 2003, 125(1): 38-45 (8 pages)
Published Online: January 22, 2003
Article history
Received:
August 7, 2001
Revised:
May 6, 2002
Online:
January 22, 2003
Citation
Coutier-Delgosha, O., Fortes-Patella, R., and Reboud, J. L. (January 22, 2003). "Evaluation of the Turbulence Model Influence on the Numerical Simulations of Unsteady Cavitation ." ASME. J. Fluids Eng. January 2003; 125(1): 38–45. https://doi.org/10.1115/1.1524584
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