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Autori principali: Valani, Rahil N., Harding, Brendan, Stokes, Yvonne M.
Natura: Preprint
Pubblicazione: 2021
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Accesso online:https://arxiv.org/abs/2112.04658
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author Valani, Rahil N.
Harding, Brendan
Stokes, Yvonne M.
author_facet Valani, Rahil N.
Harding, Brendan
Stokes, Yvonne M.
contents Particles suspended in a fluid flow through a curved duct can focus to specific locations within the duct cross-section. This particle focusing is a result of a balance between two dominant forces acting on the particle: (i) the inertial lift force arising from small but non-negligible inertia of the fluid, and (ii) the secondary drag force due to the cross-sectional vortices induced by the curvature of the duct. By adopting a simplified particle dynamics model developed by Ha et al.~[1], we investigate both analytically and numerically, the particle equilibria and their bifurcations when a small particle is suspended in low-flow-rate fluid flow through a curved duct having a $2\times1$ and a $1\times2$ rectangular cross-section. In certain parameter regimes of the model, we analytically obtain the particle equilibria and deduce their stability, while for other parameter regimes, we numerically calculate the particle equilibria and stability. Moreover, we observe a number of different bifurcations in particle equilibria such as saddle-node, pitchfork and Hopf, as the model parameters are varied. These results may aid in the design of inertial microfluidic devices aimed at particle separation by size.
format Preprint
id arxiv_https___arxiv_org_abs_2112_04658
institution arXiv
publishDate 2021
record_format arxiv
spellingShingle Bifurcations in inertial focusing of a particle suspended in flow through curved rectangular ducts
Valani, Rahil N.
Harding, Brendan
Stokes, Yvonne M.
Dynamical Systems
Particles suspended in a fluid flow through a curved duct can focus to specific locations within the duct cross-section. This particle focusing is a result of a balance between two dominant forces acting on the particle: (i) the inertial lift force arising from small but non-negligible inertia of the fluid, and (ii) the secondary drag force due to the cross-sectional vortices induced by the curvature of the duct. By adopting a simplified particle dynamics model developed by Ha et al.~[1], we investigate both analytically and numerically, the particle equilibria and their bifurcations when a small particle is suspended in low-flow-rate fluid flow through a curved duct having a $2\times1$ and a $1\times2$ rectangular cross-section. In certain parameter regimes of the model, we analytically obtain the particle equilibria and deduce their stability, while for other parameter regimes, we numerically calculate the particle equilibria and stability. Moreover, we observe a number of different bifurcations in particle equilibria such as saddle-node, pitchfork and Hopf, as the model parameters are varied. These results may aid in the design of inertial microfluidic devices aimed at particle separation by size.
title Bifurcations in inertial focusing of a particle suspended in flow through curved rectangular ducts
topic Dynamical Systems
url https://arxiv.org/abs/2112.04658