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Auteurs principaux: Han, Peng, Zhang, Dong, Zhang, Jun-Duo, Huang, Wei-Xi
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2409.17957
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author Han, Peng
Zhang, Dong
Zhang, Jun-Duo
Huang, Wei-Xi
author_facet Han, Peng
Zhang, Dong
Zhang, Jun-Duo
Huang, Wei-Xi
contents Living fish may suddenly encounter upstream obstacles, join the queue of the fish schooling, or detect upstream flow in advance, resulting in interactions with environmental vortices that can be abrupt or develop gradually from an initial state. The impact of initial conditions on fish swimming behavior in unsteady upstream vortices remains an open question. This study employs a self-propelled flexible fin model, the immersed boundary method, and direct simulation to analyze the hydrodynamics and locomotion of fish swimming behind a bluff cylinder and within the schooling, under different initial gaps and release styles. Additionally, the above tests were conducted with both quiescent flow fields and fully developed unsteady flows as initial conditions. The results indicate that schooling self-propelled fins are more resilient to initial perturbations compared to fins swimming behind a bluff body. More importantly, when simulations begin with a fully developed wake pattern, which better reflects natural environments, the characteristics of the self-propelled fins remain consistent regardless of the initial release styles. Therefore, from a hydrodynamic perspective, we conclude that initial release styles have limited effects on living fish in unsteady wakes.
format Preprint
id arxiv_https___arxiv_org_abs_2409_17957
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Initial release styles have limited effects on the hydrodynamic dynamics of a self-propelled fin in the unsteady wakes
Han, Peng
Zhang, Dong
Zhang, Jun-Duo
Huang, Wei-Xi
Fluid Dynamics
Living fish may suddenly encounter upstream obstacles, join the queue of the fish schooling, or detect upstream flow in advance, resulting in interactions with environmental vortices that can be abrupt or develop gradually from an initial state. The impact of initial conditions on fish swimming behavior in unsteady upstream vortices remains an open question. This study employs a self-propelled flexible fin model, the immersed boundary method, and direct simulation to analyze the hydrodynamics and locomotion of fish swimming behind a bluff cylinder and within the schooling, under different initial gaps and release styles. Additionally, the above tests were conducted with both quiescent flow fields and fully developed unsteady flows as initial conditions. The results indicate that schooling self-propelled fins are more resilient to initial perturbations compared to fins swimming behind a bluff body. More importantly, when simulations begin with a fully developed wake pattern, which better reflects natural environments, the characteristics of the self-propelled fins remain consistent regardless of the initial release styles. Therefore, from a hydrodynamic perspective, we conclude that initial release styles have limited effects on living fish in unsteady wakes.
title Initial release styles have limited effects on the hydrodynamic dynamics of a self-propelled fin in the unsteady wakes
topic Fluid Dynamics
url https://arxiv.org/abs/2409.17957