短波峰波和长波峰波作用下竖柱冲击荷载的试验研究

O. Økland, G. Lian, Tone M. Vestbøstad
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引用次数: 0

摘要

近年来进行的模型试验表明,各种类型的系泊浮式结构在水线以上的垂直表面上存在较大的波浪冲击载荷。这些影响是由极端海况下破碎或接近破碎的海浪造成的。由于载荷的巨大可变性,估计特征撞击载荷具有挑战性,定义为q年极端3小时撞击载荷水平为10-2的极限状态(ULS)和10-4的意外极限状态(ALS)。因此,需要许多测试实现来评估极端负载。通常的做法是在设计中假定长波峰波以抵抗猛烈载荷。这种假设被认为是保守的,有迹象表明,短波峰对冲击载荷的影响可能是显著的。本文通过实验研究了短波峰对刚性立柱的冲击效应。此外,还研究了电流和其他建模参数如造波器类型(单瓣和双瓣)的影响。试验模型为直径31m,水深121m,比例尺为1:55。柱面朝向入射波的区域通过撞击面板进行测量。该装置覆盖了圆柱体周长80度,从静止水面向上24米的高度。除了测量柱上的撞击载荷外,还测量了柱底部的剪力和弯矩以及柱的整体加速度。对超过给定阈值的撞击事件进行高速录像。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Investigation of Slamming Loads on Vertical Column Exposed to Short and Long Crested Waves
Model test campaigns conducted recent years indicate large wave impact loads on vertical surfaces above the waterline for various types of moored floating structures. These impacts are caused by breaking or near breaking waves in extreme sea states. Due to the large variability of the load, it is challenging to estimate the characteristic slamming loads, defined as the q-annual extreme 3-hour slamming load level of 10-2 for the Ultimate Limit State (ULS) and 10-4 for the Accidental Limit State (ALS). Hence, many tests realizations are necessary to assess extreme loads. It is common practice to assume long crested waves in design against slamming loads. This assumption is regarded as conservative, and there have been indications that the effect of short crested waves on impact loads could be significant. In the present work an experimental investigation was set up to study effect of short crested waves for slamming against a rigid vertical column. Influence of current and other modeling parameters like type of wavemaker (single vs double flap), were also studied. A test model in scale 1:55 of a 31m diameter column at water depth 121m was used. The area of the column facing the incoming wave was instrumented by slamming panels. The setup covers 80 degrees of the cylinder circumference over a height of 24 meters from the still water surface and upwards. In addition to the slamming loads measured on the column, shear force and bending moment at the base of the column and global accelerations for the column were measured. High-speed video recordings were made for slamming events above a given threshold.
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