Considerations of Hull Structural Deformation on Hydrodynamic Performance of Sailing Yachts

IF 0.5 4区工程技术 Q4 ENGINEERING, MARINE

Journal of Ship Production and Design Pub Date : 2023-01-24 DOI:10.5957/jspd.10210025

P. Miller, M. Morabito

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引用次数: 0

Abstract

The increasing availability of affordable finite element modeling software and computational fluid dynamics codes have given today’s sailing yacht designers tools that, in the past, were only available to designers of yachts competing in the most high-profile events. This paper provides a case study on the structural design of the International America’s Cup Class Yacht Stars & Stripes USA-34, which won the U.S. defender series, the Citizen Cup, leading up to the 29th America’s Cup competition in 1995. The authors have recently been able to publicly share this information, and feel that the problem-solving approach is of direct use to many of today’s designers. The design approach is twofold, the first being the use of Finite Element Analysis to minimize drag-inducing local deformations. Over 80 finite element models were analyzed with varying configurations, starting with an initial baseline structure based on the previous boat, USA-11. These structural improvements reduced local hull deflection from5 to 6 mm per meter on the previous design to less than 1 mm per meter on the USA-34 design. The second part of the design approach isolates the hydrodynamic effects of global bending under rig tension. Illustrative tank tests are provided to demonstrate how the global sagging of the hull, caused by rig tension, can often increase the resistance of a yacht (especially one built for racing). As part of a series of steps taken to mitigate the effect of rig tension, a novel design was developed, with soft patches and flexible structure to permit low-cost modification of the hull in the boatyard, giving approximately a 225mmincrease in waterline length and 75 mm reduction in beam if needed—a modification that was made to USA-34 prior to winning the finals of the Citizen Cup, and at a cost of under $500. The reduction of drag-inducing local hull form deformations, and the development of the cost-saving hull modification concept, demonstrate how a creative designer can take advantage of the finite element modeling tools that are now widely available.

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船体结构变形对帆船水动力性能的影响

价格合理的有限元建模软件和计算流体动力学代码的日益普及，为当今的帆船设计师提供了工具，而在过去，这些工具只适用于参加最知名赛事的游艇设计师。本文提供了一个关于国际美洲杯级游艇星条旗USA-34的结构设计的案例研究，该船在1995年第29届美洲杯比赛之前赢得了美国后卫系列赛公民杯冠军。作者最近能够公开分享这些信息，并认为解决问题的方法对当今的许多设计师有直接的用处。设计方法有两种，第一种是使用有限元分析来最大限度地减少阻力引起的局部变形。从基于前一艘USA-11的初始基线结构开始，对80多个不同配置的有限元模型进行了分析。这些结构改进将之前设计的局部船体偏转从每米5到6毫米减少到USA-34设计的每米小于1毫米。设计方法的第二部分隔离了钻机张力下整体弯曲的流体动力学效应。提供了说明性的水槽测试，以证明由钻机张力引起的船体整体下垂通常会增加游艇（尤其是为比赛而建造的游艇）的阻力。作为减轻钻机张力影响的一系列步骤的一部分，开发了一种新颖的设计，具有柔软的补丁和灵活的结构，可以在造船厂对船体进行低成本的改造，如有必要，水线长度可增加约225毫米，横梁可减少75毫米——这是在赢得公民杯决赛之前对USA-34进行的改造，成本不到500美元。阻力引起的局部船体形状变形的减少，以及节省成本的船体改造概念的发展，证明了一个有创造力的设计师如何利用现在广泛可用的有限元建模工具。

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来源期刊

Journal of Ship Production and Design ENGINEERING, MARINE-

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Original and timely technical papers addressing problems of shipyard techniques and production of merchant and naval ships appear in this quarterly publication. Since its inception, the Journal of Ship Production and Design (formerly the Journal of Ship Production) has been a forum for peer-reviewed, professionally edited papers from academic and industry sources. As such it has influenced the worldwide development of ship production engineering as a fully qualified professional discipline. The expanded scope seeks papers in additional areas, specifically ship design, including design for production, plus other marine technology topics, such as ship operations, shipping economics, and safety. Each issue contains a well-rounded selection of technical papers relevant to marine professionals.