Time-Domain Hydrodynamic Model for Mooring Analysis of a Spread Moored FPSO With Calibration of Wave Drift Forces

M. Zhang, Junrong Wang, Junfeng Du, N. Fonseca, Galin Tahchiev, E. Engebretsen
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Abstract

The paper presents calibration and validation of a time domain numerical model for mooring analysis of a spread moored FPSO in moderate seastates with and without current. The equations of motion are solved in the time domain with a fully coupled method, accounting for linear wave frequency (WF) radiation and diffraction, second order wave drift forces and nonlinear low frequency (LF) damping. The mooring system dynamics is solved by a FEM. Uncalibrated numerical models are based on input from the mooring system, vessel mass, radiation/diffraction analysis, decay tests and current coefficients. WF responses are very well predicted by standard radiation/diffraction linear analysis, therefore the focus is on the LF responses. LF motions are underpredicted by the uncalibrated numerical model. Calibration is performed by comparing simulations with model test data and adjusting hydrodynamic coefficients known to be affected by uncertainty. These include wave drift force coefficients and LF damping. Correction of the drift coefficients is based on empirical quadratic transfer functions (QTFs) identified from the test data by a nonlinear data analysis technique known as “cross-bi-spectral analysis”. The LF damping coefficients are then adjusted by matching low frequency surge and sway spectra from the model tests and from the simulations.
基于波浪漂移力校正的扩展系泊FPSO系泊分析时域水动力模型
本文介绍了一个时域数值模型的校准和验证,该模型用于在有和没有电流的中等海况中对一艘扩展系泊FPSO进行系泊分析。在考虑线性波频(WF)辐射和衍射、二阶波漂移力和非线性低频(LF)阻尼的情况下,采用全耦合方法在时域内求解运动方程。采用有限元法求解了系泊系统的动力学问题。未经校准的数值模型是基于来自系泊系统、船舶质量、辐射/衍射分析、衰减测试和电流系数的输入。标准的辐射/衍射线性分析可以很好地预测低频响应,因此重点放在低频响应上。未校准的数值模型低估了LF运动。校准是通过将模拟与模型试验数据进行比较,并调整已知受不确定性影响的水动力系数来完成的。这些包括波浪漂移力系数和LF阻尼。漂移系数的校正基于经验二次传递函数(QTFs),该函数由非线性数据分析技术“交叉双谱分析”从测试数据中识别出来。然后通过匹配模型试验和仿真的低频浪涌和摇摆谱来调整低频阻尼系数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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