Propulsive Motion of Cylindrical Vibration-Driven Robot in a Viscous Fluid

V. D. Anisimov; A. G. Egorov; A. N. Nuriev; O. N. Zaitseva

doi:10.26907/2541-7746.2024.3.277-296

Учёные записки Казанского университета. Серия Физико-математические науки (Oct 2024)

Propulsive Motion of Cylindrical Vibration-Driven Robot in a Viscous Fluid

V. D. Anisimov,
A. G. Egorov,
A. N. Nuriev,
O. N. Zaitseva

Affiliations

V. D. Anisimov: Kazan Federal University
A. G. Egorov: Kazan Federal University
A. N. Nuriev: Kazan Federal University
O. N. Zaitseva: Kazan Federal University

DOI: https://doi.org/10.26907/2541-7746.2024.3.277-296
Journal volume & issue: Vol. 166, no. 3
pp. 277 – 296

Abstract

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The propulsive motion of a multimass system, vibration-driven robot (VR), in a viscous incompressible ﬂuid was studied. The VR consisted of a round cylindrical body submerged in the ﬂuid and an internal mass (IM) performing small-amplitude pendulum-like oscillations inside the body. Using the method of asymptotic expansions, the combined mechanical and hydrodynamic problems that describe the self-propulsion of the system in the ﬂuid were solved. The hydrodynamic problem was formulated on the basis of the complete non-stationary Navier– Stokes equation. An analytical solution was derived to describe the cruising regime of the VR motion in the ﬂuid. The non-stationary hydrodynamic inﬂuence on the VR was determined. The eﬃciency of the propulsive system’s motion was assessed.

Published in Учёные записки Казанского университета. Серия Физико-математические науки

ISSN: 2541-7746 (Print); 2500-2198 (Online)
Publisher: Kazan Federal University
Country of publisher: Russian Federation
LCC subjects: Science: Mathematics
Website: https://uzakufismat.elpub.ru/jour/index?locale=en_US#

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