G. Birkhoff and E. H. Zarantonello, 1 957 Jets, Wakes and Cavities

M. Breuer, N. Jovicic, and K. Mazaev, TranComparison of DES , RANS and LES for the separated flow around a flat plate at high incidence, International Journal for Numerical Methods in Fluids, vol.41, pp.357-388, 2003.

L. Brian<;:on-marjollet, J. P. Franc, and J. M. Michel, 1 990 Transient bubbles interacting with an attached cavity and the boundary layer, Journal of Fluid Mechanics, vol.218, pp.355-376

H. Cohen, C. D. Sutherland, and Y. Tu, 1 957 Wall effects in cavitat ing hydrofoil flow, JOURNAL OF SHIP RESEARCH, vol.1, pp.3-4

0. Coutier-delgosha, R. Fortes-patella, and J. L. Reboud, Evaluation of the turbulence model influence on the numerical simulations of unsteady cavitation, Journal of Fluids Engineering, vol.125, pp.38-45, 2003.

0. Coutier-delgosha, R. Fortes-patella, J. L. Reboud, N. Hakim!, and C. Hirsch, Numerical simulation of cavitating flow in 2D and 3D inducer geometries, International Journal for Numerical Methods in Fluids, vol.48, pp.35-36, 2005.

L. Dii?val, 999 Simulation des ecoulements cavitants par poche par une methode de suivi d' interface

L. Du';val, C. Pellone, J. P. Franc, and M. Arnaud, A tracking method for the modelling of attached cavitation, Comptes Redus de l'Aca demie des Sciences, 328, lib, pp.809-817, 2000.

M. Dular, R. Bachert, B. Stoffel, and B. Sirok, Experimental evaluation of numerical simulation of cavitating flow around hydrofoil, European Journal of Mechanics, vol.24, pp.522-538, 2005.

J. H. Ferziger and M. Peric, 1 996 Computational Methods for Fluid Dynamics

E. J. Foeth, The Structure of Three-Dimensional Sheet Cavitation, 2008.

E. J. Foeth and T. Terwisga, The Structure of Unsteady Cavita tion, Part I: Observations of an Attached Cavity on a Three-Dimensional Hydrofoil, 2006.

E. J. Foeth and T. Terwisga, The Structure of Unsteady Cavita tion, Part II: Applying Time-Resolved PIV to Attached Cavitation, 2006.

J. P. Franc and J. M. Michel, Fundamentals of Cavitation, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00216178

S. Frikha, . Coutier-delgosha, and J. A. Astolfi, Numerical investigations of the cavitating flow on two-dimensional hydrofoils: physi cal modelling methodologies, Proceedings, 1 2th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery, 2008.

D. Greaves, Simulation of interface and free surface flows in a viscous fluid using adapting quadtree grids, International Journal for Numerical Methods in Fluids, vol.44, p.17, 2004.

T. Huuva, Large Eddy Simulation of Cavitating and Non-cavitating Flow, 2008.

S. A. Kinnas, 200 1 Super-cavitating Hydrofoils and Propellers: Prediction of Peiformance and Design, Von Karman Institute for Fluid Dynamics, Supercavitating Flows, 2012.

I. N. Kirschner, N. E. Fine, U. S. Uhlman, D. C. Kring, B. J. Rosenthal et al., Supercavitation research and development, Proceedings, Undersea Defense Technologies, 2001.

A. Kubota, H. Kato, and H. Yamaguchi, 992 Modeling of cavitating flows: a numerical study of unsteady cavitation on a hydrofoil section, Journal of Fluid Mechanics, vol.240, pp.59-96

R. F. Kunz, D. A. Boger, D. R. Stinebring, T. S. Chyczewski, and H. J. Gmeling, 1 999 Multi-phase CFD analysis of natural and ventilated cavitation about submerged bodies, Proceedings, Third ASME/JSME Joint Fluids Engineering Conference

B. P. Leonard, The ULTIMATE conservative difference scheme applied to unsteady one-dimensional advection, Computer Methods in Applied Mechanics and Engineering, vol.88, pp.1-7, 1991.

J. W. Lindau, R. F. Kunz, D. A. Boger, D. R. Stinebring, and H. J. Gmeling, High Reynolds number, unsteady, multiphase CFD modelling of cavitating flows, Journal of Fluids Engineering, vol.124, pp.607-613, 2002.

C. L. Merkle, J. Feng, and P. E. Buelow, 998 Computational model ing of the dynamics of sheet cavitation, Third International Symposium on Cavitation, vol.2, pp.307-310

J. M. Michel, 1 974 Etude physique du sillage en ecoulement plan, pp.27-43

C. Pellone, T. Maitre, and L. Brian<;:on-marjollet, Partially cavi tating hydrofoils: experimental and numerical analysis, JoURNAL OF SHIP RESEARCH, vol.44, pp.40-45, 2000.

C. Pellone, J. P. Franc, and M. Perrin, Modeling of unsteady 2D cavity flows using the Logvinovich independence principle. CRAS, Me'ca nique, vol.332, pp.827-833, 2004.

C. Pellone, A. Rowe, T. Persson, G. Bark, R. Bensow et al., 1 98 1 Supercavitating hydrofoils in non-linear theory, Proceedings, Third International Conference on Numerical Ship Hydrodynamics, Bassin d'Essais des Cadmes, 2006.

, Large eddy simulation of the cavitating flow around a wing section, Pro ceedings, Sixth International Symposium on Cavitation, CAV2006, Wagen ingen

B. Pouffary, R. Fortes-patella, and J. L. Reboud, Numerical sim ulation of cavitating flow around a 2D hydrofoil: a barotropic approach, Proceedings, Fifth International Symposium on Cavitation, CA V2003, 2003.

E. Rapposelli and L. Agostino, A barotropic cavitation model with thermodynamic effects, Proceedings, Fifth International Symposium on Cavitation, CA V2003, 2003.

Y. Saito, I. Nakamorj, and T. Ikohagi, Numerical analysis of un steady vaporous cavitating flow around a hydrofoil, Proceedings, Fifth International Symposium on Cavitation, CAV2003, pp.1-4, 2003.

E. Sansone, Mode1isation de Ia cavitation instationnaire dans les turbines Darrieus, INP, 2007.

J. Sauer and G. H. Schnerr, Unsteady cavitating flow-A new cavitation model based on a modified front capturing method and bubble dynamics, Proceedings, 2000 ASME Fluid Eng. Summer Conference, 2000.

Y. N. Savchenko, 200 1 Supercavitation-Problems and perspectives, Proceedings, Fourth International Symposium on Cavitation, CAV200 1, pp.20-23

G. H. Schnerr and J. Sauer, 1 Physical and numerical modeling of unsteady cavitation dynamics, Proceedings, Fourth International Confer ence on multiphase flow

I. Senocak and W. Shyy, A pressure-based method for turbulent cavitating flow computations, Journal of Computational Physics, vol.176, pp.363-366, 2002.

V. V. Serebryakov, The models of the supercavitation prediction for high speed motion in water, Proceedings, The International Scientific School "High Speed Hydrodynamics, pp.71-92, 2002.

H. Shi and M. Kume, Underwater acoustics and cavitating flow of water entry, Acta Mechanica Sinica, vol.20, pp.374-382, 2004.

A. K. Singhal, M. M. Athavale, H. Li, and Y. Jiang, Mathemati cal basis and validation of the full cavitation model, Journal of Fluids Engineering, vol.124, pp.1-7, 2002.

P. R. Spalart, Detached-eddy simulation, Annual Review of Fluid Mechanics, vol.41, pp.1-202, 2009.

M. P. Tulin, 1 964 Supercavitating flows, small perturbation theory, JoURNAL OF SHIP RESEARCH, vol.7, pp.1-6

, UBBINK, 0. 1 997 Numerical Prediction of Two Fluid Systems with Sharp Interfaces

0. Ubbink and R. I. Issa, 1 999 Method for capturing sharp fluid inter faces on arbitrary meshes, Journal of Computational Physics, vol.153, pp.26-50

C. Vortmann, G. H. Schnerr, and S. Seelecke, Thermodynamic modelling and simulation of cavitating nozzle flow, International Journal of Heat and Fluid Flow, vol.24, pp.774-783, 2003.

T. Waclawczyk and T. Koronowicz, Modeling of the flow in sys tems of immiscible fluids using volume of fluid method with CICSAM scheme, Turbulence, vol.8, pp.267-276, 2005.

T. Waclawczyk and T. Koronowicz, Comparison of CICSAM and HRIC high-resolution schemes for interface capturing, Journal of Theoreti cal and Applied Mechanics, vol.46, pp.325-345, 2008.

G. Wang and M. Ostoja-starzewski, Large eddy simulation of a sheet/cloud cavitation on a NACA00 1 5 hydrofoil, Applied Mathematical Modelling, vol.31, pp.1-7, 2007.

D. C. Wilcox, Turbulence Modeling for CFD, 1998.

J. Wu, Y. Urrurkar, and W. Shyy, Assessment of modeling strate gies for cavitating flow around a hydrofoil, Proceedings, Fifth International Symposium on Cavitation, CAV2003, 2003.

W. Yuan and G. H. Schnerr, Numerical simulation of two-phase flow in injection nozzles: interaction of cavitation and external jet forma tion, Journal of Fluid Engineering, vol.125, pp.963-969, 2003.