Drag reduction in fish-like locomotion

阻力 物理 机械 斯特劳哈尔数 唤醒 无粘流 振幅 雷诺数 阻力系数 经典力学 湍流 光学
作者
David Barrett,Michael Triantafyllou,Dick K. P. Yue,Mark A. Grosenbaugh,Wolfgang Mathis
出处
期刊:Journal of Fluid Mechanics [Cambridge University Press]
卷期号:392: 183-212 被引量:505
标识
DOI:10.1017/s0022112099005455
摘要

We present experimental force and power measurements demonstrating that the power required to propel an actively swimming, streamlined, fish-like body is significantly smaller than the power needed to tow the body straight and rigid at the same speed U . The data have been obtained through accurate force and motion measurements on a laboratory fish-like robotic mechanism, 1.2 m long, covered with a flexible skin and equipped with a tail fin, at Reynolds numbers up to 10 6 , with turbulence stimulation. The lateral motion of the body is in the form of a travelling wave with wavelength λ and varying amplitude along the length, smoothly increasing from the front to the tail end. A parametric investigation shows sensitivity of drag reduction to the non-dimensional frequency (Strouhal number), amplitude of body oscillation and wavelength λ, and angle of attack and phase angle of the tail fin. A necessary condition for drag reduction is that the phase speed of the body wave be greater than the forward speed U . Power estimates using an inviscid numerical scheme compare favourably with the experimental data. The method employs a boundary-integral method for arbitrary flexible body geometry and motions, while the wake shed from the fish-like form is modelled by an evolving desingularized dipole sheet.
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