共查询到20条相似文献,搜索用时 265 毫秒
1.
2.
3.
基于冯卡门砰击理论的基本思想,对任意形状的二维剖面入水砰击问题进行了数值研究,并且将该数值计算方法应用在了三体船船首底部二维剖面的砰击压力计算中。首先采用源汇分布法对二维剖面在不同入水深度处的附加质量进行求解,进而计算得到附加质量随入水深度的变化。在剖面入水速度已知的情况下,即可求得剖面的砰击压力值。然后以二维楔形体入水砰击为例,采用本文的数值计算方法对不同底部升角的砰击压力系数进行了数值计算。并且将数值计算结果与模型试验数据进行了比较,结果显示在底部升角大于10°的情况下,两者符合良好,从而验证了该数值方法的可行性。最终,利用该方法对三体船船首底部二维剖面的砰击压力进行了研究。 相似文献
4.
基于气垫效应的二维楔形体入水砰击载荷预报方法研究 总被引:1,自引:1,他引:0
《舰船科学技术》2016,(3):7-12
本文对二维刚性楔形体入水砰击问题进行研究,将数值模拟与模型试验结果进行对比分析,验证利用数值模拟方法研究入水砰击问题的可行性。获得气垫效应、斜倾角、入水速度对楔形体入水砰击压力峰值的影响规律,并分析了气垫效应对压力峰值的影响机理。最后对砰击载荷预报方法进行研究,获得不同斜倾角、不同速度下楔形体入水砰击压力峰值的预报公式。 相似文献
5.
6.
7.
8.
9.
10.
《船舶力学》2020,(4)
本文对船艏自由落体砰击载荷进行了模型试验研究,根据不同的落体高度与入水角进行了多次试验,研究了落体高度、入水角等因素对入水速度、砰击载荷及结构响应的影响。研究结果表明:船体入水速度、砰击压力、结构响应等随着落体高度的增大而增大;模型入水过程中,各测量点砰击压力峰值发生时刻存在一定的时间差;结构响应峰值发生时刻也存在一定的时间差;由于斜升角较小,球鼻艏底部的砰击压力峰值最大;外飘区域的砰击压力最大值仅为球鼻艏底部的30%~50%;同一水线面上,从船艏模型艏端向艉端砰击压力峰值逐渐减小;对同一横剖面,外飘下部区域的砰击压力峰值大于外飘上部区域的砰击压力峰值;由于砰击压力对外界影响因素非常敏感,砰击压力与结构响应具有一定的离散性。 相似文献
11.
12.
Dynamic response of ship-hull structure under slamming has tracked widespread attention in the marine structural design. However, our understanding on the dynamic characteristics largely relies on the symmetrical slamming cases. This paper presented a preliminary numerical investigation on the dynamic response of a truncated ship-hull structure under asymmetrical slamming based on the uncoupled CFD-FE method. Asymmetrical slamming loads were predicted through combining the seakeeping analysis and CFD method. In there, three kinds of motions (vertical, horizontal and roll motions) of 2D ship sections were obtained through the seakeeping analysis and then the slamming pressure was predicted through simulating the water entry with various motions based on CFD method. The dynamic response was analyzed through finite element method. Numerical predictions including ship motions, slamming loads and dynamic analysis were validated against published experimental data and numerical calculations. The characteristics of asymmetrical slamming loads were analyzed showing obvious asymmetry in space, and the dynamic characteristic of the ship bow structure was further clarified through discussing the deformation and stress distribution. These results are useful for readers for better understanding the dynamic characteristics of the bow structure under slamming. 相似文献
13.
14.
半潜式平台在拖行过程撑杆等细长结构承受的波浪砰击对结构安全影响较大,相关船级社规范中明确要求结构分析过程中需要考虑波浪砰击载荷。基于传统势流理论的数值方法已经被广泛的应用于浮式海洋平台的水动力和砰击载荷的研究,但是对于复杂的粘性干涉效应、波浪爬升、波浪破碎和波浪砰击等实际工程问题不能够运用势流理论准确模拟。非定常的计算流体力学CFD (Computational Fluid Dynamics)方法能够较为准确解决上述问题。因此,本文以982半潜式海洋平台为研究对象,采用计算流体力学中的动态重叠网格方法和流域体积域方法VOF(volume of fluid),结合水池物理模型试验结果,对平台在拖行工况下撑杆的波浪砰击进行研究。主要对半潜平台撑杆在三种不同流速和风速的拖航工况下撑杆受到的砰击压力的敏感性进行了分析研究,分析波浪砰击下撑杆的瞬态砰击压强分布情况,得到波浪砰击压力危险区域,同时给出拖航工况下撑杆砰击压力系数的变化规律,为分析预报半潜式平台撑杆在复杂的拖航海况下受到的砰击压力提供了参考。 相似文献
15.
文章针对船舶结构设计时重点关注的艏部砰击载荷问题,综合考虑计算效率及精度,提出了基于势流理论和计算流体力学方法的混合两步法。第一步,采用三维势流理论预报波浪中有航速船舶的运动响应,分析船波相对运动;第二步,根据预报砰击载荷所在位置的船体横剖面,建立等截面的三维立体模型,采用基于有限体积法与动网格技术的计算流体力学方法,基于第一步得到的相对运动结果模拟落体入水过程,计算砰击压力。使用该两步法预报了某超大型油轮在压载工况顶浪航行时候的艏部砰击压力,并讨论了相对运动和砰击压力的时域历程规律。文中数值预报结果得到了水池模型实验的验证,表明该方法的可行性和预报结果的合理性。 相似文献
16.
利用LS-DYNA软件对二维楔形体入水问题进行研究。基于显式有限元方法,选用任意拉格朗日-欧拉算法,建立了包含空气、水和楔形体的完全耦合的二维有限元模型,研究流场的射流现象与压力变化情况,预报了二维楔形体砰击压力系数,并与已公开发表的模型试验结果吻合较好,从而为后续砰击载荷计算提供可靠的方法。 相似文献
17.
An efficient method for calculation of the slamming pressures on ship hulls in irregular waves is presented and validated
for a 290-m cruise ship. Nonlinear strip theory was used to calculate the ship–wave relative motions. The relative vertical
and roll velocities for a slamming event were input to the slamming calculation program, which used a two-dimensional boundary
element method (BEM) based on the generalized 2D Wagner formulation presented by Zhao et al. To improve the calculation efficiency,
the method was divided into two separate steps. In the first step, the velocity potentials were calculated for unit relative
velocities between the section and the water. In the next step, these precalculated velocity potentials were used together
with the real relative velocities experienced in a seaway to calculate the slamming pressure and total slamming force on the
section. This saved considerable computer time for slamming calculations in irregular waves, without significant loss of accuracy.
The calculated slamming pressures on the bow flare of the cruise ship agreed quite well with the measured values, at least
for time windows in which the calculated and experimental ship motions agreed well. A simplified method for calculation of
the instantaneous peak pressure on each ship section in irregular waves is also presented. The method was used to identify
slamming events to be analyzed with the more refined 2D BEM method, but comparisons with measured values indicate that the
method may also be used for a quick quantitative assessment of the maximum slamming pressures. 相似文献
18.
19.
20.
本文运用CFD软件STAR-CCM+建立三体船在波浪条件下的三维砰击模型,采用重叠网格技术结合船舶六自由度系统模拟船体的砰击运动,对不同波高、波长以及不同航速下的船体砰击进行数值模拟,对比分析各工况下船体结构的运动响应和砰击特征。数值模拟结果表明:航速变化对船体砰击压力有显著影响,而波高和波长的变化对砰击压力影响较小但也不可忽视。 相似文献