Abstract
The performance of a highly-skewed seven-blade propeller operating underneath a free surface was simulated with different loading conditions using detached-eddy simulation and volume of fluid method. The presentation includes the hydrodynamic loads and distribution of the velocity, followed by a discussion of the vortex structure and free surface variation. Finally, the analysis delves into the power spectra of pressure and turbulence kinetic energy. The results suggest that there a decrease in the thrust, torque, and efficiency of the propeller. The blade tip vortex is observed to be distorted and delayed in merging in free surface condition. The shaft frequency, three times the shaft frequency, and blade frequency still make contributions in the far wake at J = 0.71 for free surface condition.
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