Parameters affecting the performance of the c-class wingsail

The International Journal of Small Craft Technology Pub Date : 2014-06-01 DOI:10.3940/RINA.IJSCT.2014.B1.155

M. Magherini, S. Turnock, I. Campbell

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引用次数: 6

Abstract

Wing sails offer a different design challenge to those of more conventional soft sail rigs. This study was undertaken in order to assess which parameters influence wingsail performance of C-Class catamarans, and to what extent, the results from the wind tunnel can be applied in the design developments of future wingsails. A combined wing sail and C- class catamaran was tested in the low-speed section of the 7’ x 5’ wind tunnel at the University of Southampton. Testing assessed the appropriate settings for the movable element of the multiple-element wing sail as well as heeling angle,trampoline porosity, spanwise camber distribution and gap at the foot of the wingsail. Both upwind and downwind conditions were considered through measurement of driving force, heeling force, heeling and yawl moments. The results demonstrate that low heel angles improve overall performance and that the gap underneath the wingsail foot adversely affects the generation of lift by the sail. An airfoil shaped trampoline is suggested in order to benefit both a reduced gap and a better control over the heel. For heavy wind condition, negative twist at the tip of the wingsail allows higher boat speeds

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影响c级翼帆性能的参数

与传统的软帆平台相比，翼帆提供了不同的设计挑战。进行这项研究是为了评估哪些参数会影响c级双体船的翼帆性能，以及风洞的结果在多大程度上可以应用于未来翼帆的设计开发。在南安普顿大学的7英尺x 5英尺风洞的低速部分，对翼帆和C级双体船进行了测试。测试评估了多单元翼帆活动元件的适当设置，以及倾斜角、蹦床孔隙度、展向弯曲分布和翼帆底部间隙。通过对动力、侧倾力、侧倾力矩和横倾力矩的测量，考虑了顺风和顺风两种工况。结果表明，低跟角可以提高整体性能，而翼帆足部下方的间隙对翼帆产生升力有不利影响。一个翼型形状的蹦床是建议，以有利于减少差距和更好地控制脚跟。对于大风条件，负扭转在翼帆的尖端允许更高的船速

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The International Journal of Small Craft Technology

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