共查询到18条相似文献,搜索用时 296 毫秒
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波激弹振和砰击颤振是集装箱船运营中极易出现的两种现象,分析其对船舶运动和剖面载荷的影响,对船舶设计和强度评估具有重要意义。采用黏性流体-柔性结构双向耦合方法对集装箱船模型在不同波长工况下的运动和响应进行求解,其中计算流体力学用于模拟流场的冲击和上浪等非线性现象并得到船体外载荷,然后通过有限元法求解船体运动和变形,两者在流固交界面进行隐式信息交换。计算捕捉到船体的非线性波激振动和颤振,分析结果发现,波激振动和颤振对整体运动影响较小,但会显著增大船体中垂的弯矩幅值,艏、艉区域垂向加速度受颤振的影响较大,当遭遇波浪的倍频成分接近船体湿频率时也会激发船体一定程度的弹振。与文献结果的比较表明,该耦合方法有望成为处理船舶水弹性问题的一种有效手段。 相似文献
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文章基于势流理论,针对水下爆炸气泡脉动载荷作用下船体梁的动态水弹性鞭状响应及其共振效应进行了研究。阐述了水下爆炸气泡与船体梁之间的流固耦合理论分析,并分别建立了一个考虑气泡迁移,自由面效应和气泡阻力的气泡模型和一个船体梁的弹性响应的计算模型。文中以两条实船作为算例,研究了刚体运动对船体梁弹性振动响应的影响,分析了船体梁在气泡脉动载荷作用下产生的共振破坏的机理。 相似文献
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不同海况下艏部砰击及鞭状效应的试验与数值分析 总被引:1,自引:0,他引:1
为了更深入地研究船舶的鞭状效应,在拖曳水池中对某船进行了艏部砰击及鞭状效应分段模型试验研究。提出了一种可以考虑砰击力的非线性水弹性计算方法。并改进了传统的分段模型,采用变截面梁对船体刚度进行模拟以更好地接近实船。在规则波迎浪下观察到了严重的艏部砰击现象。试验数据表明,当波高从5.6m增大到21m时,由于鞭状效应原因,总弯矩相比低频波浪弯矩的增大值从24.64%增长到92.02%。最后,将不同海况下的测量结果与基于线性与非线性水弹性理论的计算结果进行了比较分析,初步验证了文中方法和程序在预报船体波浪载荷中的适用性。 相似文献
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随着集装箱船尺度的迅猛增大,弹振和颤振已成为大型集装箱船设计中需要重点关注的问题。从船舶运动和波浪砰击的角度出发,对大型集装箱船弹振和颤振的计算方法和模型试验进行了研究。研究表明,弹振和颤振对大型集装箱船体的结构强度和极限强度都有重要影响,在恶劣海况下,弹振和颤振对船体的影响甚至已经超过波浪对船体的影响。 相似文献
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随着船舶尺度的增大,船体结构刚度变得越来越小,这意味着波浪激励频率和船体振动固有频率更加接近。准确地评估船体受到的波浪载荷及运动响应对船舶设计和安全性评估有重要意义。论文基于CFD-FEM耦合方法对一艘集装箱船建立水弹性模型并进行了数值计算。通过结构的升沉、纵摇,以及截面弯矩的数值计算和试验结果的比较,验证了该方法的准确性。与传统的势流水弹性方法相比,基于CFD-FEM方法能够充分考虑流场与结构相互作用过程中的非线性因素。对于一定的波长-船长比,当船体梁的固有频率较低时,波浪载荷的非线性强弱对船体梁垂向弯矩响应有较大的影响。 相似文献
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超大型船舶由于弹振响应现象突出,在航行过程中更容易发生疲劳破坏。常规的梁理论法和准静态谱分析法都存在一定缺陷,无法准确分析弹振响应对船体结构疲劳的影响。本文为研究弹振响应下的疲劳评估问题及弹振疲劳的影响因素,在确定的工况和航速条件下,基于应力振型叠加法对某超大型矿砂船进行疲劳损伤计算,分析浪向角和短期海况对弹振疲劳的影响。结果表明:弹振响应使船体热点在高频段产生新的应力峰值,疲劳损伤度大大增加;弹振响应对疲劳的影响程度随浪向角和海况变化明显。本文结论对超大型船舶设计具有一定参考意义。 相似文献
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本文采用三维时域非线性水弹性方法分析了一艘6750箱集装箱船的水弹性响应以及运动和垂向弯矩特征。通过考虑入射波力、静水恢复力、砰击效应的非线性,研究了在恶劣海况下船体的非线性运动和垂向弯矩响应,同时分析了波激振动及颤振对垂向弯矩的影响。数值计算结果表明:(1)非线性入射波力对运动的影响较小,但是对垂向弯矩的影响较大,使得其有明显的倍频成分,同时中垂弯矩显著大于中拱弯矩。另外,非线性入射波力也引起了明显的非线性波激振动;(2)非线性静水恢复力对运动和载荷的影响均较大,但是没有引起明显的非线性响应。非线性计算的垂荡响应小于线性结果,而纵摇和垂向弯矩响应大于线性结果;(3)砰击效应对运动的影响较小,但对垂向弯矩的影响较大,砰击效应引起了显著的船体弹性高频振动,增大了载荷幅值,但是其引起的合成中垂和中拱幅值相差不大;(4)非线性水动力的作用主要引起垂向弯矩的倍频响应,包括倍频可能引起的二节点垂向弯矩弹性共振,而砰击效应主要引起船体二节点垂向弯矩共振;(5)本文的非线性水弹性响应计算结果与Kim给出的数值计算结果吻合很好。 相似文献
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Chang Doo Jang Jong Jin Jung Alexander A. Korobkin 《Journal of Marine Science and Technology》2007,12(2):95-101
This article describes an estimation method for the hull girder response of a ship due to springing. The linear and nonlinear
springing effects on the hull girder are evaluated. Previous studies on the springing response focused mainly on the symmetric
response, or vertical response. In this article, however, the springing analysis is extended to asymmetric responses, or horizontal
and torsional responses. The Timoshenko beam model was used to calculate the hull girder response and the quadratic strip
method was employed to calculate hydrodynamic forces and moments on the hull. To remove irregular frequencies, a rigid lid
was adopted on the hull free surface level and hydrodynamic coefficients were interpolated for asymptotic values. Applications
to two ships for the symmetric and asymmetric responses were carried out and the effect of springing responses is also discussed. 相似文献
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Ingo Drummen Gaute Storhaug Torgeir Moan 《Journal of Marine Science and Technology》2008,13(4):428-445
Fatigue cracks have been known to occur in welded ships for several decades. For large ocean-going ships wave-induced vibrations
can, depending on trade and design, cause up to 50% of the fatigue damage. The vibrations may be due to springing and whipping
effects. In this paper, we address the fatigue damage caused by wave-induced vibrations in a containership of newer design
trading in the North Atlantic. The fatigue damage was obtained both experimentally and numerically. The experimental results
were found from tests performed with a flexible model of the ship, while the numerical predictions were done using nonlinear
hydroelastic strip theory. The measurements showed that the wave-induced vibrations contributed approximately 40% of the total
fatigue damage. The numerical method predicted the wave frequency damage well, but was found to overestimate the total fatigue
damage by 50%. This was mainly due to an overprediction of the wave-induced vibrations. The discrepancy is partly related
to three-dimensional (3D) effects which are not included in the two-dimensional (2D) slamming calculation, and partly to an
overprediction of the springing contribution. Moreover, the numerical method does not account for the steady wave due to forward
speed. By using a simplified approach we show that high-frequency damage can be significantly reduced by including the steady
wave for the relevant vessel, implying better agreement with the experimental results. 相似文献
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In the previous paper, one of the authors proposed a new time-domain nonlinear strip method for a rigid body, in which hydrodynamic
forces are evaluated by a convolution integral with the memory function computed for the instantaneous submerged part of the
transverse sections, and the Froude–Krylov and hydrostatic forces are evaluated on the instantaneous wetted hull surface.
In this paper, first, that nonlinear strip method is extended for an elastic body using a method of superposition of elastic
mode functions, which enabled us to investigate whipping phenomena due to impulsive large waves. Second, the influence of
different approximations of the pressure above the still-water surface is investigated, and then the results calculated by
the proposed nonlinear strip method are compared with the experimental ones. Third, whipping phenomena observed for an elastic
body at higher Froude numbers are studied through a comparison between computed and measured results. Higher-frequency vibrations
in the vertical bending moment due to slamming are discussed. Furthermore, the wave load due to green water on deck is calculated
by introducing a practical model, and the effects of the green water on responses of both rigid and elastic bodies are investigated. 相似文献
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水下爆炸中的气泡脉动载荷会造成舰船的鞭状运动,对其总纵强度产生很大威胁,是战争中造成船体总体毁伤与丧失生命力的主要原因之一。基于势流理论,推导并建立船体梁气泡弯矩的理论与计算方法,同时综合考虑气泡弯矩、船体静水弯矩、波浪弯矩及砰击弯矩等其他影响因素,建立一套完整的气泡作用下船体梁总纵强度估算方法。通过算例,校核典型工况下多种弯矩同时作用时船体梁的总纵强度。计算结果表明,气泡脉动载荷产生的总纵弯矩具有周期性鞭振特性,且数值大于其他弯矩。在评估舰船总纵强度与生命力时,应充分考虑气泡脉动载荷的影响。 相似文献
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The coefficient of contribution method, in which the extreme response is determined by considering only the few most important sea states, is an efficient way to do nonlinear long-term load analyses. To furthermore efficiently find the nonlinear short-term probability distributions of the vessel responses in these sea states, response conditioned wave methods can be used. Several researchers have studied the accuracy of response conditioned wave methods for this purpose. However, further investigations are necessary before these can become established tools. In this paper we investigate the accuracy by comparing the short-term probability distributions obtained from random irregular waves with those from response conditioned waves. We furthermore show how response conditioned wave methods can be fitted into a long-term response analysis. The numerical and experimental investigations were performed using a container vessel with a length between perpendiculars of 281 m. Numerical simulations were done with a nonlinear hydroelastic time domain code. Experiments were carried out with a flexible model of the vessel in the towing tank at the Marine Technology Centre in Trondheim. The focus was on the probability distributions of the midship vertical hogging bending moments in the sea states contributing most to the hogging moments with a mean return period of 20 years and 10 000 years. We found that the response conditioned wave methods can very efficiently be used to accurately determine the nonlinear short-term probability distributions for rigid hulls, but either accuracy or efficiency is to a large effect lost for flexible hulls, when slamming induced whipping responses are accounted for. 相似文献