Review of numerical models of cavitating flows with the use of the homogeneous approach

Journal title

Archives of Thermodynamics




No 2



sheet cavitation ; cloud cavitation ; homogeneous models ; steady-state ; unsteady ; hydrofoil ; venturi ; cylinder

Divisions of PAS

Nauki Techniczne




The Committee on Thermodynamics and Combustion of the Polish Academy of Sciences




Artykuły / Articles


ISSN 1231-0956 ; eISSN 2083-6023


Ducoin (2012), Numerical modeling of unsteady cavitating flows around a stationery hydrofoil, Int J Rot Mach, ; Goncalves (2013), Numerical study of expansion tube problems : towards the simulation of cavitation, Comput Fluids, 1, ; Wu (2005), Time - dependent turbulent cavitating flow computations with interfacial transport and filter - based models, Int J Numer Meth Fl, 49, 739, ; Senocak (2004), Interfacial dynamics - based model ling of turbulent cavitating flows part model development and steady - state computations, Int J Numer Meth Fl, 44, 1. ; Morgut (2011), Comparison of mass transfer model for the numerical prediction of sheet cavitation around a hydrofoil Flow, Int J Multiph, 620, ; Reynolds (null), Experiments showing the boiling of water in an open tube at ordinary temperatures Scientific Papers on Mechanical and Physical Subject Vol Cambridge Uni Cambridge, II, 1894. ; Kunz (2000), A preconditioned Navier - Stokes method for two - phase flows with application to cavitation prediction, Comput Fluids, 29, ; Konstantinov (2015), Numerical cavitation model for simulation of mass flow stabilization effect in ANSYS CFX, Mod Appl Sci, 9, 21. ; Merkle (1998), Computational modeling of the dynamics of sheet cavitations In rd Grenoble, Proc Int Symp, 3. ; Goncalves (2014), Modeling for isothermal cavitation with a fourequation model Multiphase Flow, Int J, 54. ; Singhal (2002), Mathematical basis and validation of the full cavitation model Fluids, Eng, 124, 617. ; Goel (2008), Surrogate model - based strategy for cryogenic cavitation model validation and sensitivity evaluation, Int J Numer Meth Fl, 58, 969, ; Sobieski (2011), The basic equations of fluid mechanics in form characteristic of the finite volume method, Techn Sci, 14, 299. ; Ivany (1965), Cavitation bubble col lapse in viscous compressible liquids - numerical analysis Basic, Eng, 87, 977. ; Kubota (1992), A new modeling of cavitating flows : a numerical study of unsteady cavitation on a hydrofoil section Fluid, Mech, 240, 59. ; Frikha (2008), Influence of the cavitation model on the simulation of cloud cavitation on D foil section, Int J Rot Mach, ; Schnerr (2001), Physical and numerical modeling of unsteady cavitation dynamics In th Multiphase Flow New Orleans, Proc Int Conf, 4, 01. ; Senocack (2001), Numerical simulation of turbulent flows with sheet cavitation In th Pasadena, Proc Int Symp, 4. ; Huang (2011), A modified density based cavitation model for time dependent turbulent cavitating flow computations Chinese n, Sci Bull, 1985, ; Žnidarčič (2015), Modeling cavitation in a rapidly changing pressure field - application to a smal l ultrasonic horn, Ultrason Sonochem, 22, 482, ; Zwart (2004), A two - phase flow model for prediction cavitation dynamics In th Multiphase Flow Yokohama, Proc Int Conf, 5. ; Morgut (2012), Numerical predictions of cavitating flow around model scale propel lers by CFD and advanced model calibration, Int J Rot Mach, ; Ahuja (2001), Simulations of cavitating flows using hybrid unstructured meshes Fluids, Eng, 123, 331. ; Hohenberg (1977), Theory of dynamic critical phenomena Modern, Rev Phys, 49, 435. ; Merkle (2006), Multi - Disciplinary Computational Analysis in Propulsion In nd ASEE Joint Propulsion Conf, Proc AIAA ASME SAE, 42. ; Shi (2014), A Rayleigh - Plesset based transport model for cryogenic fluid cavitating flow computations China, Sci Phys Mech Astron, 57, 764, ; Plesset (1977), Bubble dynamics and cavitation Fluids, Ann Rev Mech, 9, 145, ; Thorneycroft (1895), Torpedo - boat destroyers Civil Engineers, Inst, 51. ; Frobenius (2003), Threedimensional , unsteady cavitation effects on a single hydrofoil and in a radial pump - measurements and numerical simulations , part two : numerical simulation In th Osaka, Proc Int Symp, 5. ; Park (2009), Multiphase flow analysis of cylinder using a new cavitation model In th, Proc Int Symp Ann Arbor, 7. ; Rayleigh (1917), On the pressure developed in a liquid during the col lapse of a spherical cavity, Philosoph Mag, 34, 94. ; Saito (2003), Numerical analysis of unsteady vaporous cavitating flow around a hydrofoil In th Osaka, Proc Int Symp, 5.