Yoonho Jang scite author profile

When a ship operates in waves, the ship moves with 6 degrees-of-freedom, and a propeller at the stern of the ship cannot avoid moving due to the ship motion. Therefore, it is important to analyse the propulsion performance while considering the ship motion in waves for efficient ship operation. The pitch motion of the ship has a dominant effect on the variation of the propeller performance and results in sinusoidal pitch motion of the propeller. In this study, a numerical analysis was done using a KP458 model propeller with a diameter of 10 cm, which was designed for the KLVCC2 body plan. The propeller performance was calculated using computational fluid dynamics (CFD) at several constant tilt angles. Numerical simulations were then conducted with sinusoidal pitch motion in several conditions of varying pitch angle. The variations of the thrust and torque of the propeller in sinusoidal pitch motion were compared with the results obtained in constant tilt angles.

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A study on the propeller open water performance due to immersion depth and regular wave

Eom

Jang

Paik

2021

Ocean Engineering

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Yoonho Jang

The development of the vehicle sound source localization system

A method for predicting propeller performance considering ship motion in regular waves

A Numerical Study on the Open Water Performance of a Propeller With Sinusoidal Pitch Motion

A study on the propeller open water performance due to immersion depth and regular wave

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