Open AccessSimulation of Ship Trajectory in Waves Based on STAR-CCM+
Author(s) -
Han Baochen,
Ning Chen
Publication year - 2021
Publication title -
bûlletenʹ nauki i praktiki
Language(s) - English
Resource type - Journals
ISSN - 2414-2948
DOI - 10.33619/2414-2948/65/30
Subject(s) - trajectory , hull , heading (navigation) , computational fluid dynamics , response amplitude operator , displacement (psychology) , motion (physics) , marine engineering , computer simulation , computer science , ship motions , mechanics , simulation , geology , physics , engineering , classical mechanics , geodesy , psychology , astronomy , psychotherapist
The reliable ship motion trajectory signal provides a basis for six-degree-of-freedom test bench to simulate ship motion in waves. The characteristics of ship motion in waves were analyzed. Aiming at the problem of complex hull shape and large displacement at sea, the dynamic overlapping grid technique was used. Based on STAR-CCM+, the free surface was solved by CFD (Computational Fluid Dynamics) numerical simulation method. The numerical model of ship motion in waves was established, and the DFBI (Dynamic Fluid Body Interaction) method was used to simulate the ship motion in the waves. The ship’s motion trajectory was obtained in the regular and irregular heading waves, which provides important support for the six-degree-of-freedom test bench wave simulation system.