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文章着眼于球鼻艏设计,提出一种球鼻艏几何形状的插值表达方法,把球鼻艏的设计参数减少至5个,提出采用多岛遗传算法数值优化兴波阻力的球鼻艏设计方法。最后,对KCS船的球鼻艏进行了优化设计,结果显示,其兴波阻力较原方案降低了10%,初步验证了该设计方法的有效性。 相似文献
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In this research,a commercial CFD code "Fluent" was applied to optimization of bulbous bow shape for a non ballast water ships(NBS).The ship was developed at the Laboratory of the authors in Osaka Prefecture University,Japan.At first,accuracy of the CFD code was validated by comparing the CFD results with experimental results at towing tank of Osaka Prefecture University.In the optimizing process,the resistances acting on ships in calm water and in regular head waves were defined as the object function.Following features of bulbous bow shapes were considered as design parameters: volume of bulbous bow,height of its volume center,angle of bow bottom,and length of bulbous bow.When referring to the computed results given by the CFD like resistance,pressure and wave pattern made by ships in calm water and in waves,an optimal bow shape for ships was discovered by comparing the results in the series of bow shapes.In the computation on waves,the ship is in fully captured condition because shorter waves,λ/Lpp 0.6,are assumed. 相似文献
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在分析球艏形状特征参数、特征曲线和曲面生成的基础上,介绍以Feature、Curve engine和Metasurface为特征机制的球艏参数化方法和实现过程。生成的曲面模型光顺、精度高,可满足工程的需要。 相似文献
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采用遗传算法进行球鼻艏优化的流体动力计算(英文) 总被引:1,自引:0,他引:1
Computational fluid dynamics(CFD) plays a major role in predicting the flow behavior of a ship.With the development of fast computers and robust CFD software,CFD has become an important tool for designers and engineers in the ship industry.In this paper,the hull form of a ship was optimized for total resistance using CFD as a calculation tool and a genetic algorithm as an optimization tool.CFD based optimization consists of major steps involving automatic generation of geometry based on design parameters,automatic generation of mesh,automatic analysis of fluid flow to calculate the required objective/cost function,and finally an optimization tool to evaluate the cost for optimization.In this paper,integration of a genetic algorithm program,written in MATLAB,was carried out with the geometry and meshing software GAMBIT and CFD analysis software FLUENT.Different geometries of additive bulbous bow were incorporated in the original hull based on design parameters.These design variables were optimized to achieve a minimum cost function of "total resistance".Integration of a genetic algorithm with CFD tools proves to be effective for hull form optimization. 相似文献
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依据缓冲球艏设计要求,提出棱柱型艏柱设计方案,运用有限元分析软件LS-DYNA对采用传统艏柱与棱柱型艏柱结构的12 000 t油船进行船艏碰撞的仿真分析,发现棱柱型艏柱结构比传统艏柱结构球艏更易被压溃. 相似文献
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一种实用船型设计方法 总被引:5,自引:2,他引:3
介绍船型设计中对兴波阻力影响最大的两个因素--横剖面面积曲线和球鼻首的设计方法.20年间,结合实用船型的特点,采用该方法研发出一种对中高速船行之有效的船型设计程序,并先后对四种具有完全不同尾型的实用船型进行优化设计,即1984年完成的球首长轴套新船型、1988年完成的球首蜗尾新船型、1992年完成的球首双尾新船型、2002年完成的球首常规尾沿海客滚船新船型,都取得了良好的消波、减阻与节能效果.在设计航速下,与各自的对比船型相比较,四种新船型均大幅度减小兴波阻力,减小剩余阻力20%以上,节省有效功率分别为16.2%、5.5%、5.8%、10.3%. 相似文献
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为实现在船舶型线设计中快速生成船舶球首,以船舶球首为研究对象,通过定义控制球首形状的纵向边界线、横向边界线、横剖面形状,设置相关控制参数,以CATIA为开发平台,VB为开发工具,对其进行二次开发,编制球首参数化设计程序,迅速地生成球首三维模型。 相似文献
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提出一种以势流兴波阻力理论Rankine源方法为基础,结合SHIPFLOW软件为计算工具,利用CAD-CFD集成平台FRIENDSHIP-Framework软件进行变形优化,研究船舶的最小兴波阻力型线优化设计的方法,并考察了兴波优化得到的船型总阻力变化情况。在型线优化过程中,以兴波阻力系数为目标函数,排水量变化范围为约束条件,在Wigley船体前端增加一个利用Feature建模技术参数化生成的球艏并调整艏部型线使得船体表面光顺。选取球鼻艏形状的各项参数作为基本设计变量,利用DOE方法对船艏进行优化,获得了设计航速下兴波阻力较小的船型,验证了所提方法进行船艏型线优化的有效性。相应的考察变形及优化前后总阻力变化情况表明:在高傅汝德数情况下增加球艏所带来的粘性阻力的增加小于兴波阻力的减小量,总阻力得到了改善,优化后得到的球艏能在进一步减小兴波的同时减小总阻力。此外,还运用所提方法对3100TEU船型的船艏,利用Delta Shift方法进行变形,在设计航速下,将变形的参数作为设计变量,利用DOE方法进行优化设计。结果显示:在排水量限制范围内当球鼻艏向上向前伸展一定长度时可以降低兴波阻力。与此同时,由于优化前后船体湿表面积变化很小,粘性阻力的变化并不明显,兴波的减小则使得总阻力得到了改善。 相似文献
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In this paper, we investigate the damage to offshore platforms subjected to ship collisions. The considered scenarios are bow and stern impacts against the column of a floating platform and against the jacket legs and braces. The effect of the ship–platform interaction on the distribution of damage is studied by modeling both structures using nonlinear shell finite elements. A supply vessel of 7500-ton displacement with bulbous bow is modeled. A comprehensive numerical analysis program is conducted, and the primary findings are described herein. The collision forces from the vessel are compared with the suggested force–deformation curves in the NORSOK code. For collisions with floating platforms we particularly focus on the crushing behavior and potential penetration of the bulbous bow and stern sections into the cargo tanks or void spaces of semi-submersible platforms. For fixed jacket platforms we investigate whether jacket braces can penetrate into the ship without being subjected to significant plastic bending or local denting.Adequate treatment of the relative strength between the interacting bodies is especially relevant for impacts with high levels of available kinetic energy, for which shared energy or strength design is aimed at. Simplifying one body as rigid quickly leads to overly conservative and/or costly solutions, and is in some cases non-conservative.The numerical analysis is used to develop a novel pressure–area relation for the deformation of the bulbous bow and stern corners of the supply vessel. Procedures for strength design of the stiffened panels are discussed. Refined methods and criteria are proposed for strength design of platforms, including both floating and jacket structures. The adequacy of the NORSOK design guidance for collisions against jacket legs is evaluated. The characteristic strength of a cylindrical column is used to develop a novel criterion for the resistance to local denting from stern corners and bulbous bows. 相似文献
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Seiichiro Yagi Hideki Kumamoto Osamu Muragishi Yukichi Takaoka Taichiro Shimoda 《Marine Structures》2009,22(1):12-23
SEA-Arrow (sharp entrance angle bow like an arrow) has no protrusion of the bulbous bow to reduce bow waves and has a transverse stiffening system in the narrow bow space to apply the buffer bow concept. This system has lower longitudinal stiffness than a conventional longitudinal stiffening system and therefore has buffer characteristic in ship-to-ship collision. A comparative collision study of SEA-Arrow and the conventional bulbous bow was conducted using elasto-plastic finite element analysis. A collision scenario where the striking ship hits the side shell of tanker midship perpendicularly was selected. The results showed that the buffer bow characteristic of SEA-Arrow is superior to that of the conventional bulbous bow, since much more energy is dissipated by the plastic deformation of striking and struck ships until the inner shell of struck ship ruptures. 相似文献
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在某肥大型船母型船的基础上设计了几种球鼻艏外形方案,基于CFD技术预报了母性船桨盘面处的伴流分布,通过与试验结果的对比分析,检验了数值预报方法的适用性,在此基础上采用该方法预报了不同球鼻艏方案的桨盘面处的轴向伴流,并使用WOF方法来衡量不同球鼻艏方案对应的轴向伴流均匀情况,通过对比分析得到一种伴流分布相对较好的球鼻艏方案. 相似文献