A limiting model for a low Reynolds number swimmer with N passive elastic arms

François Alouges; Aline Lefebvre-Lepot; Jessie Levillain

doi:10.3934/mine.2023087

A limiting model for a low Reynolds number swimmer with N passive elastic arms

François Alouges
, Aline Lefebvre-Lepot
, Jessie Levillain

Université Paris-Saclay
Ecole polytechnique

Research output: Contribution to journal › Article › peer-review

Abstract

We consider a low Reynolds number artificial swimmer that consists of an active arm followed by N passive springs separated by spheres. This setup generalizes an approach proposed in Montino and DeSimone, Eur. Phys. J. E, vol. 38, 2015. We further study the limit as the number of springs tends to infinity and the parameters are scaled conveniently, and provide a rigorous proof of the convergence of the discrete model to the continuous one. Several numerical experiments show the performances of the displacement in terms of the frequency or the amplitude of the oscillation of the active arm.

Original language	English
Journal	Mathematics In Engineering
Volume	5
Issue number	5
DOIs	https://doi.org/10.3934/mine.2023087
Publication status	Published - 1 Jan 2023

Keywords

continuous model
convergence
discrete model
low Reynolds number swimmers
ordinary differential equations
partial differential equations

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10.3934/mine.2023087

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abstract = "We consider a low Reynolds number artificial swimmer that consists of an active arm followed by N passive springs separated by spheres. This setup generalizes an approach proposed in Montino and DeSimone, Eur. Phys. J. E, vol. 38, 2015. We further study the limit as the number of springs tends to infinity and the parameters are scaled conveniently, and provide a rigorous proof of the convergence of the discrete model to the continuous one. Several numerical experiments show the performances of the displacement in terms of the frequency or the amplitude of the oscillation of the active arm.",

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N2 - We consider a low Reynolds number artificial swimmer that consists of an active arm followed by N passive springs separated by spheres. This setup generalizes an approach proposed in Montino and DeSimone, Eur. Phys. J. E, vol. 38, 2015. We further study the limit as the number of springs tends to infinity and the parameters are scaled conveniently, and provide a rigorous proof of the convergence of the discrete model to the continuous one. Several numerical experiments show the performances of the displacement in terms of the frequency or the amplitude of the oscillation of the active arm.

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KW - continuous model

KW - convergence

KW - discrete model

KW - low Reynolds number swimmers

KW - ordinary differential equations

KW - partial differential equations

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A limiting model for a low Reynolds number swimmer with N passive elastic arms

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