Study on numerical simulation and mitigation of parametric rolling in a container ship under head waves
Volume
75
Issue number
3
Article number
75305
Submitted
20.05.2024.
Accepted
24.06.2024.
Authors
Liu Liang1, Zhang Baoji1*, Zhang Hao2, Gong Jiaye1, Tian Zheng1, Guo Shuhui1, Bao Yuanbiao2, Zheng Xu2
1 College of Ocean Science and Engineering, Shanghai Maritime University, Shanghai, 201306, China
2 Merchant Marine College, Shanghai Maritime University, Shanghai, 201306, China
Corresponding author email
Abstract
To investigate the parametric rolling motion of container ships navigating in head seas, this study utilizes the unsteady RANS approach combined with dynamic overlapping grid technology to simulate parametric roll in a container ship under the coupled motions of roll, pitch, and heave. Initially, the model was validated against experimental results, demonstrating good agreement and thus confirming the reliability of the computational method. Furthermore, the paper investigates the impacts of the initial roll angle, encounter frequency, and the addition of bilge keels on parametric rolling. The research findings indicate that the initial angles of rolling impact the duration needed to attain a steady roll condition, yet they have minimal effect on the amplitude post-stabilization. The likelihood of parametric rolling arises when the frequency of encounters doubles that of the ship’s inherent roll frequency. Furthermore, the likelihood of parametric rolling escalates when the wavelengths approach the length of the ship. Installing bilge keels markedly reduces the parametric rolling movement in vessels, and the occurrence of parametric rolling is also delayed.
Keywords
Parametric rolling, CFD, Head wave, Container ship, Dynamic overset