Particles suspended in non-Newtonian liquids flowing in channels may migrate transversally to the main flow direction as a result of normal stress gradients. Viscoelasticity-induced migration has proven to be an efficient mechanism to promote 3D flow-focusing in cylindrical microchannels, avoiding the need for complex and expensive apparati. In this work, we demonstrate the existence of a single dimensionless number (Theta) that governs the migration dynamics of particles in viscoelastic liquids flowing in micropipes at low Deborah numbers (Deborah number is the ratio of fluid and flow characteristic times). The definition of Theta in terms of the relevant fluid, flow and geometrical quantities is obtained by generalizing the particle migration velocity expression given in previous asymptotic analytical theories through numerical simulations. An extensive experimental investigation quantitatively confirms the novel predictions: the experimental particle distributions along the channel axial direction collapse on a single curve when rescaled in terms of the proposed dimensionless number. The results reported in this work give a simple and general way to define the flow-focusing conditions promoted by viscoelastic effects

Viscoelastic flow-focusing in microchannels: scaling properties of the particle radial distributions / Giovanni, Romeo; D'Avino, Gaetano; Greco, Francesco; Netti, PAOLO ANTONIO; Maffettone, PIER LUCA. - In: LAB ON A CHIP. - ISSN 1473-0197. - 13:14(2013), pp. 2802-2807. [10.1039/c3lc50257k]

Viscoelastic flow-focusing in microchannels: scaling properties of the particle radial distributions

D'AVINO, GAETANO;GRECO, FRANCESCO;NETTI, PAOLO ANTONIO;MAFFETTONE, PIER LUCA
2013

Abstract

Particles suspended in non-Newtonian liquids flowing in channels may migrate transversally to the main flow direction as a result of normal stress gradients. Viscoelasticity-induced migration has proven to be an efficient mechanism to promote 3D flow-focusing in cylindrical microchannels, avoiding the need for complex and expensive apparati. In this work, we demonstrate the existence of a single dimensionless number (Theta) that governs the migration dynamics of particles in viscoelastic liquids flowing in micropipes at low Deborah numbers (Deborah number is the ratio of fluid and flow characteristic times). The definition of Theta in terms of the relevant fluid, flow and geometrical quantities is obtained by generalizing the particle migration velocity expression given in previous asymptotic analytical theories through numerical simulations. An extensive experimental investigation quantitatively confirms the novel predictions: the experimental particle distributions along the channel axial direction collapse on a single curve when rescaled in terms of the proposed dimensionless number. The results reported in this work give a simple and general way to define the flow-focusing conditions promoted by viscoelastic effects
2013
Viscoelastic flow-focusing in microchannels: scaling properties of the particle radial distributions / Giovanni, Romeo; D'Avino, Gaetano; Greco, Francesco; Netti, PAOLO ANTONIO; Maffettone, PIER LUCA. - In: LAB ON A CHIP. - ISSN 1473-0197. - 13:14(2013), pp. 2802-2807. [10.1039/c3lc50257k]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/561065
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