A hydrodynamics-based model of a rowing stroke simulating effects of drag and lift on oar blade efficiency for various cant angles

机译：基于流体动力学的划艇模拟模拟拖曳效果的划船和升降桨叶片效率

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A hydrodynamics-based model of the highly complex flow around a rowing oar blade during a rowing stroke, consisting of an analytical shell velocity model fully coupled with a computational fluid dynamics (CFD) model, is presented. A temporal examination of the resulting blade force for a standard blade, decomposed into propulsive, drag, and lift components, illustrates the flow mechanisms responsible for shell propulsion and a blade propulsive efficiency term is defined. A comparison of blades with modified cant angles reveals that a -3° cant blade has a higher efficiency than the standard (-6° cant) blade.

机译：提出了一种由与计算流体动力学（CFD）模型完全耦合的分析壳速度模型组成的划船桨叶片周围的高度复杂流的水动力学模型。对标准叶片的所得叶片力的时间检查分解成推进，拖曳和提升部件，示出了负责壳推进的流动机构，并定义了刀片推进效率术语。具有改性不能变形角度的叶片的比较显示，-3°不能刀片的效率高于标准（-6°Cant）刀片。

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《Conference of International Sports Engineering Association》|2013年||共6页
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A. Sliasas; S. Tullis;
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中图分类体育理论;
关键词
rowing; blade; modelling; hydrodynamics; computational fluid dynamics;

机译：划船;刀刃;造型;流体动力学;计算流体动力学;

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1. The dynamic flow behaviour of an oar blade in motion using a hydrodynamics-based shell-velocity-coupled model of a rowing stroke [J] . A Sliasas, S Tullis Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology . 2010,第1期

机译：桨叶在运动中的动态流动行为，基于划艇运动的基于水动力学的壳速度耦合模型
2. The dynamic flow behaviour of an oar blade in motion using a hydrodynamics-based shell-velocity-coupled model of a rowing stroke [J] . A. Sliasas, S. Tullis Proceedings of the Institution of Mechanical Engineers, Part P. Journal of Sports Engineering and Technology . 2010,第1期

机译：桨叶在运动中的动态流动行为，基于划艇运动的基于水动力学的壳速度耦合模型
3. Simulating the fluid dynamic behaviour of oar blades in competition rowing [J] . A Coppel, T N Gardner, N Caplan, Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology . 2010,第1期

机译：模拟赛艇桨桨的流体动力学行为
4. A hydrodynamics-based model of a rowing stroke simulating effects of drag and lift on oar blade efficiency for various cant angles [C] . A. Sliasas, S. Tullis Conference of International Sports Engineering Association . 2013

机译：基于流体动力学的划艇模拟模拟拖曳效果的划船和升降桨叶片效率
5. Modeling and analysis of NACA 4412 airfoil to increase lift and to optimize the lift-to-drag ratio. [D] . Mustafa, Ali. 2009

机译：对NACA 4412机翼进行建模和分析，以增加升力并优化升阻比。
6. Effects of Intensive Crew Training on Individual and Collective Characteristics of Oar Movement in Rowing as a Coxless Pair [O] . Mathieu Feigean, Mehdi R’Kiouak, Reinoud J. Bootsma, -1

机译：大乘员训练对划船无桨对桨运动个体和集体特征的影响
7. A hydrodynamics-based model of a rowing stroke simulating effects of drag and lift on oar blade efficiency for various cant angles [O] . Sliasas A., Tullis S. 2010

机译：基于水动力学的划船模型，模拟了在各种倾斜角度下阻力和升力对桨叶效率的影响

A hydrodynamics-based model of a rowing stroke simulating effects of drag and lift on oar blade efficiency for various cant angles

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