Comparative investigations in the effect of angle of attack profile on hydrodynamic performance of bio-inspired foil, (corrected)

J. A. Esfahani; E. Barati; Hamid Reza Karbasian

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Comparative investigations in the effect of angle of attack profile on hydrodynamic performance of bio-inspired foil, (corrected)

机译：攻角分布对生物启发箔的水动力性能影响的比较研究（已校正）

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In flapping underwater vehicles the propulsive performance of harmonically sinusoidal heaving and pitching foil will be degraded by some awkward changes in effective angle of attack profile, as the Strouhal number increases. This paper surveys different angle of attack profiles (Sinusoidal, Square, Sawtooth and Cosine) and considers their thrust production ability. In the wide range of Strouhal numbers, thrust production of Square profile is considerable but it has a discontinuity in heave velocity profile, in which an infinite acceleration exists. This problem poses a significant defect in control of flapping foil. A novel profile function is proposed to omit sharp changes in heave velocity and acceleration. Furthermore, an optimum profile is found for different Strouhal numbers with respect to Square angle of attack profile.DOI: http://dx.doi.org/10.3329/jname.v10i2.14229

机译：在拍打水下航行器时，随着Strouhal数的增加，有效正攻角的某些尴尬变化将使谐波正弦起伏和俯仰翼片的推进性能下降。本文调查了不同的攻角分布（正弦，正方形，锯齿形和余弦形），并考虑了它们的推力产生能力。在广泛的Strouhal数范围内，Square型材的推力产生相当大，但其升沉速度型材不连续，其中存在无限的加速度。这个问题在扑翼的控制上造成了明显的缺陷。提出了一种新颖的轮廓函数，以消除升沉速度和加速度的急剧变化。此外，针对方角攻角轮廓找到了针对不同Strouhal数的最佳轮廓.DOI：http://dx.doi.org/10.3329/jname.v10i2.14229

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《Journal of Naval Architecture and Marine Engineering》 |2013年第2期|共10页
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J. A. Esfahani; E. Barati; Hamid Reza Karbasian;
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1. Numerical investigation of angle of attack profile on propulsion performance of an oscillating foil [J] . Qing Xiao, Wei Liao Computers & Fluids . 2010,第8期

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2. Study of the hydrodynamic of a flapping foil at moderate angle of attack [J] . O. Boiron, C. Guivier-Curien, E. Bertrand Computers & Fluids . 2012,第Null期

机译：中等迎角拍打箔的流体动力学研究。
3. Effect of angle of attack profiles in flapping foil propulsion [J] . F. S. Hover, O. Haugsdal, M. S. Triantafyllou Journal of Fluids and Structures . 2004,第1期

机译：迎角轮廓对翼片推进的影响
4. Numerical Investigation of Angle of Attack Profile on Propulsion Performance of Oscillating Foil [C] . Q. Xiao, W. Liao AIAA Aerospace Sciences Meeting Including The New Horizons Forum and Aerospace Exposition . 2009

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5. Comparative Design, Hydrodynamic Analysis, and Physical Performance of Bio-inspired Fish-like Robots [D] . ?Glaze, Jordan Matthew 2020

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机译：模仿鱼鳍运动学的拍打箔的尾迹结构和水动力性能
7. Effect of angle of attack profiles in flapping foil propulsion [O] . F.S. Hover, Ø. Haugsdal, M.S. Triantafyllou 2004

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8. Results of Experiments With a Segmented Model to Investigate the Distribution of the Hydrodynamic Forces and Moments on a Streamlined Body of Revolution at an Angle of Attack or With a Pitching Angular Velocity [R] . Van Randwijck, E. F. , Feldman, J. P. 2000

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Comparative investigations in the effect of angle of attack profile on hydrodynamic performance of bio-inspired foil, (corrected)

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