使用张力测量的系泊模拟(用于系泊完整性评估)的验证

W. Pauw, R. Hageman, Joris van den Berg, P. Aalberts, Hironori Yamaji, A. Ong
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引用次数: 0

摘要

在海洋工业中,系泊系统的完整性至关重要。然而,在使用中对系泊线的载荷进行评估是非常具有挑战性的。通过测压元件或测斜仪直接监测系泊线载荷需要海底安装工作和连续的数据传输。基于GPS和运动监测的其他解决方案已经被提出作为克服这些限制的解决方案[1]。基于GPS和运动数据的监测解决方案提供了很好的实际效益,因为监测可以在可到达的区域进行。该程序依赖于精确的数值模型来模拟整体运动与系泊系统响应之间的关系。在本文中,将对单个单元的这种监测方法进行验证。正在考虑的单元是在澳大利亚运行的炮塔系泊单元。在服务测量运动,GPS和线张力是可用的。建立了系泊系统的时域数值模型。该模型用于模拟由测量的FPSO运动引起的系泊线张力。使用测量的单位响应避免了由于预测水动力响应而产生的不确定性。可从各种系泊线的测压元件进行测量。将这些测量结果与模拟结果进行比较,以验证该方法。三个不同的时期,包括总共五周的数据,被更详细地检查。两个时期是温和的天气条件,主要波浪方向不同。第三个时期的特点是恶劣的天气条件。本文给出了数据集和数值模型。将对实测和数值计算的系缆力进行比较。计算力和测量力之间的差异进行了检验。该验证研究表明,通过GPS和运动数据监测系泊线载荷,为降低监测系统复杂性的系泊完整性评估提供了新的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Validation of Mooring Simulations (for Mooring Integrity Assessment) With In-Service Tension Measurements
Integrity of mooring system is of high importance in the offshore industry. In-service assessment of loads in the mooring lines is however very challenging. Direct monitoring of mooring line loads through load cells or inclinometers requires subsea installation work and continuous data transmission. Other solutions based on GPS and motion monitoring have been presented as solutions to overcome these limitations [1]. Monitoring solutions based on GPS and motion data provide good practical benefits, because monitoring can be conducted from accessible area. The procedure relies on accurate numerical models to model the relation between global motions and response of the mooring system. In this paper, validation of this monitoring approach for a single unit will be presented. The unit under consideration is a turret-moored unit operating in Australia. In-service measurements of motions, GPS and line tensions are available. A numerical time-domain model of the mooring system was created. This model was used to simulate mooring line tensions due to measured FPSO motions. Using the measured unit response avoids the uncertainty resulting from a prediction of the hydrodynamic response. Measurements from load cells in various mooring lines are available. These measurements were compared against the results obtained from the simulations for validation of the approach. Three different periods, comprising a total of five weeks of data, were examined in more detail. Two periods are mild weather conditions with different dominant wave directions. The third period features heavy weather conditions. In this paper, the data set and numerical model are presented. A comparison between the measured and numerically calculated mooring line forces will be presented. Differences between the calculated and measured forces are examined. This validation study has shown that in-service monitoring of mooring line loads through GPS and motion data provides a new opportunity for mooring integrity assessment with reduced monitoring system complexity.
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