IMO级别3:使用三维数值波浪槽进行参数化滚转稳定性失效模拟

Shivaji Ganesan T., A. Negi, D. Sen
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摘要

2020年底,国际海事组织(IMO)发布了第二代完整稳定性标准的临时指南。本文采用确定性方法对参数化轧制失效模式进行了设计情况下的直接稳定性评估。采用基于混合欧拉-拉格朗日(MEL)格式的三维非线性直接时域方法,而不是脉冲响应函数(IRF)方法,模拟了规则波和不规则波的参数横摇。计算结果与已有文献的结果吻合较好。本研究进一步探讨了入射波高和横摇阻尼系数对正常头波条件下计算的升沉、横摇和俯仰运动的影响。根据国际海事组织指南的建议,在设计情况下获得平均3小时最大横摇振幅。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
IMO Level 3: Parametric Roll Stability Failure Simulation Using 3D Numerical Wave Tank
In late 2020, International Maritime Organization (IMO) released interim guidelines on the second generation intact stability criteria. In this paper direct stability assessment in design situations using deterministic approach for parametric rolling failure mode is presented. A 3D nonlinear direct time domain method based on mixed-Eulerian-Lagrangian (MEL) scheme as opposed to impulse response function (IRF) method is used to simulate parametric rolling in both regular and irregular waves. Computed numerical results of roll amplitude in regular head waves is validated with other available literature results. This study further examines the influence of incident wave height and roll damping coefficient on computed heave, roll, and pitch motions in regular head wave conditions. Mean 3-hour maximum roll amplitude is obtained for design situations as recommended by the IMO guidelines.
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