The article presents the numerical method for prediction of tip vortex cavitation generated on hydrofoils.This method has been developed in the course of numerical and experimental research described in earlierpublications. The objective of the research was to design the optimum discrete grid structure for this specificcomputational task and to select the best turbulence model for such an application The article includesa short description of the method and a computational example demonstrating its performance. In thisexample the results of numerical prediction of the cavitating tip vortex obtained from two commercial CFDcodes are compared with experimental photographs taken in the cavitation tunnel in the correspondingflow conditions. Altogether nine different flow conditions are tested and analyzed, but only selected resultsare included. The accuracy of the numerical predictions is discussed and the reasons for minor existingdiscrepancies are identified. The unsteady tip vortex calculations are also presented, showing the fluctuationsof the transverse velocity components predicted for three cross-sections of the cavitating vortex kernel.
