Journal
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS
Volume 61, Issue 12, Pages 1388-1410Publisher
WILEY
DOI: 10.1002/fld.2003
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The goal of the work is to investigate the. possibility of cavitation erosion prediction using computational fluid dynamics (CFD) tools only. For that put-pose, I numerical process based Oil a coupling between CFD and an erosion model is presented and tested in Several Configurations Of cavitating flow oil it two-dimensional hydrofoil. The CFD code. which is based Oil the homogeneous approach, was previously validated on numerous experiments. In the present work, the predictions of velocity and pressure evolutions in the vicinity of the hydrofoil are corn pared with experimentally measured data A close agreement is systematically obtained The erosion model is based on the physical description of phenomena from cavitation cloud implosion, pressure wave emission and its attenuation, micro-jet formation and finally to the pit formation. The coupling between CFD and the erosion model is based on the use of local pressure. void fraction and velocity values to determine the magnitude of damage at a certain point. The results are compared with the experimentally measured damage oil the hydrofoil In the experiments a thin copper foil applied to the surface of the hydrofoil was used as an erosion sensor. A pit-count method was applied to evaluate the damage The comparison shows that it is possible to use solely CFD tools to predict time evolution of cavitation erosion, including final extent and magnitude, with a very good accuracy. Copyright. 2009 John Wiley & Sons. Lid
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