Classification of breaking wave impact loads on a fixed surface-piercing square column with an overhanging deck

IF 4.2 2区 工程技术 Q1 ENGINEERING, CIVIL
Nianfan Zhang , Longfei Xiao , Zhengshun Cheng , Handi Wei , Gang Chen
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引用次数: 0

Abstract

In extreme sea states, steep or breaking waves can produce destructive wave impact loads on surface-piercing structures, such as semi-submersible platforms primarily composed of decks, columns, and pontoons. To reveal the characteristics of breaking wave loads and gain a deeper insight into the wave impacts induced by different breakers, a series of physical tests on a truncated square column with an overhanging deck were conducted in a wave flume. Focused waves were generated to reproduce breaking waves, and a total of 60 test runs were performed. Based on high-speed video recordings of wave motion, four types of wave breaking in the presence of the column structure were identified, including the upward deflected breaker without entrapped air, spilling breaker with air cavity, plunging breaker with small air cushion, and well-developed plunging breaker with large air cushion. Identification parameters and classification criteria for breaker types were proposed. The wave motion features of each breaker type were analyzed in detail, and the spatio-temporal distribution of the resulting local impact pressure and total impact force were discussed. Furthermore, the spatial variation of the pressure impulse and the durations of breaking wave impacts were investigated. The results showed that the wave impact loads caused by different breakers have distinctive spatio-temporal characteristics, and the near-breaking waves usually produce greater impact loads. The location of the maximum local impact load is related to the breaker type, and the spilling breaker is found to cause the most severe wave impact on the column structure. Due to the air entrainment of a larger volume, the local impacts produced by the well-developed plunging breaker should also be attached importance. The research demonstrates that the breaker type could be identified from wave impact loads without using any records of the wave motion. The breaker type must be taken into account for the prediction of breaking wave impact loads on surface-piercing structures in the future.

带悬空甲板的固定穿面方柱上的破浪冲击载荷分类
在极端海况下,陡浪或破浪会对穿透表面的结构(如主要由甲板、立柱和浮桥组成的半潜式平台)产生破坏性波浪冲击载荷。为了揭示破浪载荷的特征并深入了解不同破浪器引起的波浪冲击,我们在波浪水槽中对带有悬空甲板的截顶方柱进行了一系列物理测试。产生的聚焦波重现了破浪,总共进行了 60 次测试。根据波浪运动的高速视频记录,确定了四种柱状结构下的破浪类型,包括不夹带空气的向上偏转破浪、带气腔的溢出破浪、带小气垫的跌落破浪和带大气垫的发达跌落破浪。提出了断路器类型的识别参数和分类标准。详细分析了每种断路器类型的波浪运动特征,并讨论了所产生的局部冲击压力和总冲击力的时空分布。此外,还研究了压力脉冲的空间变化和破浪冲击的持续时间。结果表明,不同的破浪造成的波浪冲击载荷具有不同的时空特征,近破浪通常会产生更大的冲击载荷。最大局部冲击载荷的位置与断路器类型有关,发现溢流型断路器对支柱结构造成的波浪冲击最为严重。由于空气夹带的体积较大,因此也应重视发育良好的跌落式断路器产生的局部冲击。研究表明,无需使用任何波浪运动记录,就可根据波浪冲击载荷确定断路器类型。今后在预测穿面结构的破浪冲击荷载时,必须考虑到破浪类型。
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来源期刊
Coastal Engineering
Coastal Engineering 工程技术-工程:大洋
CiteScore
9.20
自引率
13.60%
发文量
0
审稿时长
3.5 months
期刊介绍: Coastal Engineering is an international medium for coastal engineers and scientists. Combining practical applications with modern technological and scientific approaches, such as mathematical and numerical modelling, laboratory and field observations and experiments, it publishes fundamental studies as well as case studies on the following aspects of coastal, harbour and offshore engineering: waves, currents and sediment transport; coastal, estuarine and offshore morphology; technical and functional design of coastal and harbour structures; morphological and environmental impact of coastal, harbour and offshore structures.
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