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首页> 外文会议>International Symposium on Deepwater Mooring Systems: Deepwater Mooring Systems: Concepts, Design, Analysis, and Materials; 20031002-20031003; Houston,TX; US >Coupled Analysis of Floating Production Systems
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Coupled Analysis of Floating Production Systems

机译:浮动生产系统的耦合分析

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摘要

Fully coupled global analysis of Floating Production Systems, including the vessel, the mooring system and the riser system is described. Design of the system can be a daunting task, involving more than 1,000 load cases for global analysis. The primary driver for the mooring system and for the riser system is motion of the vessel. Vessel motions are driven by environmental forces, but are restrained by forces from the mooring and riser systems. Numerical models and procedures that provide accurate and efficient global modeling of the Floating Production System are presented. Both Time Domain and Frequency Domain procedures are included. The accuracy and efficiency of the procedures are illustrated in an example: a large semi with 16 mooring lines and 20 risers. The procedures provide the accuracy and efficiency for use of fully coupled analysis in design of Floating Production Systems from concept selection to final design, installation and operation.
机译:描述了浮动生产系统(包括船舶,系泊系统和立管系统)的全耦合全局分析。系统设计可能是一项艰巨的任务,涉及超过1,000个负载案例以进行全局分析。系泊系统和立管系统的主要驱动因素是船舶的运动。船舶运动受环境力的驱动,但受到系泊和立管系统的力的约束。提出了提供精确有效的浮动生产系统全局建模的数值模型和程序。包括时域和频域过程。示例中说明了该过程的准确性和效率:一个大型半船,有16条系泊缆线和20条提升管。这些程序为从概念选择到最终设计,安装和操作的浮动生产系统设计中使用全耦合分析提供了准确性和效率。

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