海豹后鳍在水动力学中的作用。

IF 3.1 3区计算机科学 Q1 ENGINEERING, MULTIDISCIPLINARY

Bioinspiration & Biomimetics Pub Date : 2025-06-09 DOI:10.1088/1748-3190/adde07

Amirhossein Fardi, Hamayun Farooq, Imran Akhtar, Arman Hemmati, Muhammad Saif Ullah Khalid

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引用次数: 0

摘要

本文研究了海豹运动的水动力特性，重点研究了后鳍在推力产生和尾流动力学中的作用。在雷诺数为3000时，采用浸入边界法进行了三维数值模拟，分析了不同的斯特罗哈尔数（St = 0.2 ~ 0.35）和推进波长（λ∗= 1.0 ~ 1.2）对游泳性能的影响。我们的研究结果揭示了两种不同的尾流模式：低斯特罗哈尔数（St≤0.25）时的单排结构和高斯特罗哈尔数（St≥0.3）时的双排结构。增加波长通常通过减少阻力组件的压力和摩擦来提高推力产生。此外，我们确定了前后鳍之间的临界涡旋相互作用，在低St处发生破坏性干涉，在高St处出现建设性模式。环流分析证实，在高St和λ *处形成更强的涡旋，特别是在左冲程阶段。这些结果为海豹运动背后的水动力机制提供了新的见解，并有助于我们理解高效的水生推进系统。

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Characterizing the role of hind flippers in hydrodynamics of a harbor seal.

In this paper, we investigate the hydrodynamic characteristics of harbor seal locomotion, focusing on the role of hind flippers in thrust generation and wake dynamics. Through three-dimensional numerical simulations using an immersed boundary method at Reynolds number of 3000, we analyze the impact of varying Strouhal number (St = 0.2-0.35) and propulsive wavelength (λ∗= 1.0-1.2) on swimming performance. Our findings reveal two distinct wake patterns: a single-row structure at lower Strouhal numbers (St⩽0.25) and a double-row configuration at higher St (St⩾0.3). Increasing wavelength generally enhances thrust production by reducing both pressure and friction of drag components. Additionally, we identify critical vortex interactions between the front and hind flippers, with destructive interference occurring at lower St and constructive patterns emerging at higher St. Circulation analysis confirms stronger vortex formation at higher St andλ∗, particularly during the left stroke phase. These results provide novel insights into the hydrodynamic mechanisms underlying seal locomotion and contribute to our understanding of efficient aquatic propulsion systems.

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来源期刊

Bioinspiration & Biomimetics 工程技术-材料科学：生物材料

CiteScore

5.90

自引率

14.70%

发文量

132

审稿时长

3 months

期刊介绍： Bioinspiration & Biomimetics publishes research involving the study and distillation of principles and functions found in biological systems that have been developed through evolution, and application of this knowledge to produce novel and exciting basic technologies and new approaches to solving scientific problems. It provides a forum for interdisciplinary research which acts as a pipeline, facilitating the two-way flow of ideas and understanding between the extensive bodies of knowledge of the different disciplines. It has two principal aims: to draw on biology to enrich engineering and to draw from engineering to enrich biology. The journal aims to include input from across all intersecting areas of both fields. In biology, this would include work in all fields from physiology to ecology, with either zoological or botanical focus. In engineering, this would include both design and practical application of biomimetic or bioinspired devices and systems. Typical areas of interest include: Systems, designs and structure Communication and navigation Cooperative behaviour Self-organizing biological systems Self-healing and self-assembly Aerial locomotion and aerospace applications of biomimetics Biomorphic surface and subsurface systems Marine dynamics: swimming and underwater dynamics Applications of novel materials Biomechanics; including movement, locomotion, fluidics Cellular behaviour Sensors and senses Biomimetic or bioinformed approaches to geological exploration.