Modeling for non isothermal cavitation using 4-equation models
A compressible, two-phase, one-fluid solver has been developed to investigate the behaviour of cavitation models including thermodynamic effects. The code is composed by three conservation laws for mixture variables (mass, momentum and total energy) and a supplementary transport equation for the voi...
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| Published in: | International journal of heat and mass transfer Vol. 76; pp. 247 - 262 |
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| Format: | Journal Article |
| Language: | English |
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Elsevier Ltd
01-09-2014
Elsevier |
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| Abstract | A compressible, two-phase, one-fluid solver has been developed to investigate the behaviour of cavitation models including thermodynamic effects. The code is composed by three conservation laws for mixture variables (mass, momentum and total energy) and a supplementary transport equation for the void ratio. Two formulations for the mass transfer between phases are studied. Numerical simulations are firstly performed on rarefaction cavitating problems in which the working fluid is hot water and freon R-114. A realistic turbulent Venturi case with freon R-114 is performed and comparisons are done between 3- and 4-equation models. A warming effect is highlighted downstream the cavitation pocket in the region of pressure recuperation. |
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| AbstractList | A compressible, two-phase, one-fluid solver has been developed to investigate the behaviour of cavitation models including thermodynamic effects. The code is composed by three conservation laws for mixture variables (mass, momentum and total energy) and a supplementary transport equation for the void ratio. Two formulations for the mass transfer between phases are studied. Numerical simulations are firstly performed on rarefaction cavitating problems in which the working fluid is hot water and freon R-114. A realistic turbulent Venturi case with freon R-114 is performed and comparisons are done between 3- and 4-equation models. A warming effect is highlighted downstream the cavitation pocket in the region of pressure recuperation. |
| Author | Goncalvès, Eric |
| Author_xml | – sequence: 1 givenname: Eric surname: Goncalves fullname: Goncalves, Eric |
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| SubjectTerms | Cavitation Compressibility Downstream effects Engineering Sciences Fluid mechanics Fluids mechanics Freon Homogeneous model Mass transfer Mathematical models Mechanics Physics Rarefaction Thermal effects Turbulent flow |
| Title | Modeling for non isothermal cavitation using 4-equation models |
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