Performance Prediction of Composite Marine Propeller in Non-Cavitating and Cavitating Flow

Abstract: The purpose of this study is to compare the performance of specific composite propellers with different ply angles from a cavitation inception speed (CIS) perspective. Composite propellers have a relatively large deformation compared to existing propellers manufactured using nickel aluminum bronze alloys. Therefore, it is necessary to understand the correlation between the stacking method of the composite materials and the propeller performance in order to design composite propellers that provide sufficient st… Show more

“…Moreover, the propeller faces a transient circumferential wake field behind the hull. This causes variable loading on the propeller [13]. Pressure transients at propeller surfaces also create pressure waves that may disturb the ecological aspect of marine life [14].…”

Design Optimization of Marine Propeller using Elitist Particle Swarm Intelligence

“…Moreover, the propeller faces a transient circumferential wake field behind the hull. This causes variable loading on the propeller [13]. Pressure transients at propeller surfaces also create pressure waves that may disturb the ecological aspect of marine life [14].…”

Design Optimization of Marine Propeller using Elitist Particle Swarm Intelligence

Hydro-acoustic and structural analysis of marine propeller using two-way fluid–structure interaction

A Succinct Review on the Numerical and Experimental Performance Evaluation Techniques for Composite Marine Propellers