用于水下运动的刚性推进器性能的标度规律

Proceeding of Tenth International Symposium on Turbulence and Shear Flow Phenomena Pub Date : 1900-01-01 DOI:10.1615/tsfp10.580

D. Floryan, T. Buren, C. Rowley, A. Smits

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引用次数: 0

摘要

给出了刚性箔在水中振荡运动时推进性能的标度规律。在名义上的二维箔上的水洞实验表明，标度定律很好地描述了推力、功率和效率的数据。然后利用基于后缘最大速度的参数对标度定律进行了扩展，以考虑非正弦运动的影响，较好地描述了由雅可比椭圆函数描述的非正弦步态实验。最后，考虑间歇运动。推力和功率与占空比呈线性比例关系，并给出了能量学的比例规律。间歇性运动通常比连续运动在能量上更有利，除非代谢能量损失足够高。

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SCALING LAWS FOR THE PERFORMANCE OF RIGID PROPULSORS INTENDED FOR UNDERWATER LOCOMOTION

Scaling laws are presented for the propulsive performance of rigid foils undergoing oscillatory motion in water. Water tunnel experiments on a nominally two-dimensional foil show that the scaling laws provide an excellent description of the data for thrust, power, and efficiency. The scaling laws are then extended to account for the effects of non-sinusoidal motions by using a parameter based on the maximum velocity of the trailing edge, which describes the experiments on non-sinusoidal gaits described by Jacobi elliptic functions reasonably well. Lastly, intermittent motions are considered. The thrust and power is shown to scale linearly with the duty cycle, and scaling laws for the energetics are presented. Intermittent motions are generally energetically advantageous over continuous motions, unless metabolic energy losses are sufficiently high.

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Proceeding of Tenth International Symposium on Turbulence and Shear Flow Phenomena

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