The Likely Cause of Loss of Position for Dynamically Positioned Semi-Submersibles Under Moderate Wave Conditions

K. E. Kaasen, H. Ludvigsen, N. Fonseca, H. Lie, L. Bjørheim
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Abstract

A number of incidents of wave-induced loss of position for dynamically positioned semi-submersible under normal operating conditions have occurred in the Norwegian offshore sector in recent years. A study has been carried out to seek their cause. One hypothesis for the cause has been slamming load from an extremely tall and steep wave that is not effectively counteracted by the DP system due to delays in signal filters and thruster response. Another cause could the loads from a train of tall and steep waves. A linear single-degree-of-freedom numerical model is made for a vessel with DP. The model is essential in that it represents the basic characteristics of the DP system: State observer/filter and feedback control. The model is used to calculate the frequency response and the impulse response of the dynamically positioned semi-submersible. By calculating extreme impulsive load based on published theory it is established that slamming will not cause great vessel excursion. Still, due to delays, the DP system gives more than twice as large excursion as a mass-spring-damper system with identical restoring stiffness and damping. Using an advanced model for vessel with DP, three-hour simulations of stochastic vessel response are carried out for five steep wave states of moderate significant height, The likely cause of large vessel excursion is found to be wave-drift. Due to additional viscous loads on the semi’s columns the wave-drift loads will be significantly larger than predicted with potential theory.
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中波条件下动态定位半潜器失位的可能原因
近年来,挪威海上部门发生了许多在正常操作条件下动态定位半潜式钻井平台因波浪引起的失位事故。已经进行了一项研究来寻找他们的原因。原因的一个假设是,由于信号滤波器和推力器响应的延迟,DP系统无法有效抵消来自极高陡波的冲击负载。另一个原因可能是由高而陡的波浪带来的负荷。建立了带DP的船舶线性单自由度数值模型。该模型是必不可少的,因为它代表了DP系统的基本特征:状态观测器/滤波器和反馈控制。利用该模型计算了动态定位半潜器的频率响应和脉冲响应。根据已发表的理论计算了极端脉冲载荷,确定了撞击不会造成较大的船舶偏移。尽管如此,由于延迟,DP系统的偏移量是具有相同恢复刚度和阻尼的质量-弹簧-阻尼系统的两倍多。利用一种先进的船舶DP模型,对5种中等显著高度的陡浪状态下船舶随机响应进行了3小时的模拟,发现引起大型船舶偏移的可能原因是波浪漂移。由于半挂车柱上附加的粘性载荷,波漂载荷将明显大于用势理论预测的值。
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