Numerical investigation on the slamming loads of a truncated trimaran hull entering regular waves

IF 4.3 2区 工程技术 Q1 ENGINEERING, OCEAN
Pengyao Yu , Song Qu , Qiang Wang , Hang Xie
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Abstract

For ship slamming, waves can disturb the water entry progress and thus affect the slamming load characteristics. This paper studied the slamming loads of a trimaran entering regular waves based on the CFD method. The results of a trimaran model impacting calm water and wedge impacting waves are used to verify the present method. The free surface evolution and load characteristics of the trimaran model considering wave effects are discussed. The results showed that the position at which the structure touches the wave surface depends on the formation, deformation and escape of bubble flows, which cause obvious asymmetrical flow. The enclosure of the air cavity induces a step increase in pressure, and the pressure peak appears when the bubble fully escapes. Three typical positions, wave crest, wave cross and wave through, are chosen to explore the influence of waves on slamming loads. The impact load shows a 98% difference at different wave locations. In ship load forecasting, the position of the waves relative to the hull is noteworthy. The influence of the water entry velocity on the slamming load is further discussed. Bubble retention related to the water entry velocity is the key factor affecting the peak load.
截尾三体船船体进入规则波浪时的撞击载荷数值研究
对于船舶撞击而言,波浪会干扰入水过程,从而影响撞击载荷特性。本文基于 CFD 方法研究了三体船进入规则波浪时的撞击载荷。三体船模型冲击平静水域和楔形冲击波的结果用于验证本方法。讨论了考虑波浪效应的三体船模型的自由表面演变和载荷特性。结果表明,结构接触波浪表面的位置取决于气泡流的形成、变形和逃逸,从而导致明显的不对称流动。气腔的封闭导致压力阶跃上升,当气泡完全逸出时出现压力峰值。选取波峰、波跨和波穿三个典型位置,探讨波浪对撞击载荷的影响。不同波浪位置的冲击载荷相差 98%。在船舶载荷预报中,波浪相对于船体的位置值得注意。进一步讨论了入水速度对撞击载荷的影响。与进水速度有关的气泡滞留是影响峰值载荷的关键因素。
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来源期刊
Applied Ocean Research
Applied Ocean Research 地学-工程:大洋
CiteScore
8.70
自引率
7.00%
发文量
316
审稿时长
59 days
期刊介绍: The aim of Applied Ocean Research is to encourage the submission of papers that advance the state of knowledge in a range of topics relevant to ocean engineering.
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