碰撞损伤对FPSO船舶极限强度的影响

M. Alie, Dian Ramasari, T. Rachman, R. Adiputra
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引用次数: 4

摘要

浮式生产储存卸载船(FPSO)是一种可移动的海上结构。这些结构的设计尺寸很大,甲板上装载了几种类型的设备。在碰撞损坏中,船体和装载设备的甲板部位受到严重影响。因此,应该对FPSO船的极限强度进行彻底的检查和评估。本研究的目的是分析FPSO船在纵向弯曲下的碰撞损伤的极限强度。FPSO船的横截面由加筋板和非加筋板组成。假定容器长度占用一个帧空间。FPSO船抗碰撞损伤的极限强度是通过对其在占用和下垂条件下的数值分析来确定的。将多点约束应用于横截面的两侧,并将材料属性设置为常数。碰撞损伤用单元刚度损失来表示,它代表船舶深度的百分比。对于横向损伤程度,设B/16为常数。最小和最大碰撞损伤分别取船舶深度的10%和60%。数值计算结果表明,FPSO船舶在碰撞作用下的极限强度和抗弯刚度降低。
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Effects of Collision Damage on the Ultimate Strength of FPSO Vessels
Floating production storage offloading (FPSO) vessels are movable offshore structures. These structures are designed with large dimensions, and their decks are loaded with several types of equipment. During collision damage, the hull and deck parts loaded with equipment are severely affected. Therefore, the ultimate strength of FPSO vessels should be thoroughly checked and evaluated. The objective of the present study is to analyze the ultimate strength of FPSO vessels against collision damage characterized by hogging and sagging under longitudinal bending. The cross section of an FPSO vessel is modeled with elements composed of stiffened and unstiffened plates. The vessel length is assumed to occupy one frame space. The ultimate strength of FPSO vessels against collision damage is determined by performing a numerical analysis under hogging and sagging conditions. Multipoint constraint is applied to both sides of the cross section, and the material properties are set to be constant. Collision damage is represented by the loss of element stiffness, and it represents the percentage of the ship’s depth. For the extent of transversal damage, B/16 is set to be constant. The minimum and maximum collision damages are taken as 10% and 60% of the ship’s depth, respectively. Numerical results show that the ultimate strength of FPSO vessels and their bending stiffness decrease under collision.
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