Determination of surface shear viscosity via deep-channel flow with inertia

A. H. HIRSA; J. M. LOPEZ; R. MIRAGHAIE

doi:10.1017/S002211200200191X

Abstract

Results of an experimental and computational study of the flow in an annular region bounded by stationary inner and outer cylinders and driven by the rotation of the floor are presented. The top is a flat air/water interface, covered by an insoluble monolayer. We develop a technique to determine the surface shear viscosity from azimuthal velocity measurements at the interface which extends the range of surface shear viscosity that can be measured using a deep-channel viscometer in the usual Stokes flow regime by exploiting flow inertia. A Navier–Stokes-based model of bulk flow coupled to a Newtonian interface that has surface shear viscosity as the only interfacial property is developed. This is achieved by restricting the flow to regimes where the surface radial velocity vanishes. The use of inertia results in an improved signal-to-noise ratio of the azimuthal velocity measurements by an order of magnitude beyond that available in the Stokes flow limit. Measurements on vitamin K1 and stearic acid monolayers were performed, and their surface shear viscosities over a range of concentrations are determined and found to be in agreement with data in the literature.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Erni, Philipp Fischer, Peter Windhab, Erich J. Kusnezov, Victor Stettin, Heiko and Läuger, Jörg 2003. Stress- and strain-controlled measurements of interfacial shear viscosity and viscoelasticity at liquid/liquid and gas/liquid interfaces. Review of Scientific Instruments, Vol. 74, Issue. 11, p. 4916.

Lopez, Juan M. Vogel, Michael J. and Hirsa, Amir H. 2004. Influence of coexisting phases on the surface dilatational viscosity of Langmuir monolayers. Physical Review E, Vol. 70, Issue. 5,

Vogel, Michael J. Miraghaie, Reza Lopez, Juan M. and Hirsa, Amir H. 2004. Flow-Induced Patterning of Langmuir Monolayers. Langmuir, Vol. 20, Issue. 14, p. 5651.

Hirsa, Amir H. Lopez, Juan M. Vogel, Michael J. and Leung, Jonathan J. F. 2006. Effects of Shearing Flow with Inertia on Monolayer Mesoscale Structure. Langmuir, Vol. 22, Issue. 23, p. 9483.

Anguelouch, A. Leheny, R. L. and Reich, D. H. 2006. Application of ferromagnetic nanowires to interfacial microrheology. Applied Physics Letters, Vol. 89, Issue. 11,

Azadani, Ali N. Lopez, Juan M. and Hirsa, Amir H. 2007. Protein Crystallization at the Air/Water Interface Induced by Shearing Bulk Flow. Langmuir, Vol. 23, Issue. 10, p. 5227.

Krägel, J. Derkatch, S.R. and Miller, R. 2008. Interfacial shear rheology of protein–surfactant layers. Advances in Colloid and Interface Science, Vol. 144, Issue. 1-2, p. 38.

Azadani, A.N. Lopez, J.M. and Hirsa, A.H. 2008. Coupling between protein-laden films and a shearing bulk flow. Journal of Colloid and Interface Science, Vol. 322, Issue. 1, p. 79.

Davoust, Laurent Huang, Yu-Lin and Chang, Shuo-Hung 2009. Shearing of a stratified layer of amphiphilic (bio)molecules. Surface Science, Vol. 603, Issue. 17, p. 2777.

Derkach, S. R. Krägel, J. and Miller, R. 2009. Methods of measuring rheological properties of interfacial layers (Experimental methods of 2D rheology). Colloid Journal, Vol. 71, Issue. 1, p. 1.

LEE, CUNBIAO PENG, HUAIWU YUAN, HUIJING WU, JIEZHI ZHOU, MINGDE and HUSSAIN, FAZLE 2011. Experimental studies of surface waves inside a cylindrical container. Journal of Fluid Mechanics, Vol. 677, Issue. , p. 39.

Erni, Philipp 2011. Deformation modes of complex fluid interfaces. Soft Matter, Vol. 7, Issue. 17, p. 7586.

Plaut, E. Lebranchu, Y. Jenny, M. and Serre, É. 2011. Structure and stability of annular sheared channel flows: effects of confinement, curvature and inertial forces – waves. The European Physical Journal B, Vol. 79, Issue. 1, p. 35.

Brady, P. T. Herrmann, M. and Lopez, J. M. 2012. Two-fluid confined flow in a cylinder driven by a rotating end wall. Physical Review E, Vol. 85, Issue. 1,

Sadoughi, A. H. Lopez, J. M. and Hirsa, A. H. 2013. Transition from Newtonian to non-Newtonian surface shear viscosity of phospholipid monolayers. Physics of Fluids, Vol. 25, Issue. 3,

Herrada, M. A. Montanero, J. M. and Vega, J. M. 2013. Without Bounds: A Scientific Canvas of Nonlinearity and Complex Dynamics. p. 349.

Delacroix, Jules and Davoust, Laurent 2014. Electrical activity of the Hartmann layers relative to surface viscous shearing in an annular magnetohydrodynamic flow. Physics of Fluids, Vol. 26, Issue. 3,

Raghunandan, Aditya Lopez, Juan M. and Hirsa, Amir H. 2015. Bulk flow driven by a viscous monolayer. Journal of Fluid Mechanics, Vol. 785, Issue. , p. 283.

Delacroix, Jules and Davoust, Laurent 2015. On the role of surface rheology in a magnetohydrodynamic swirling flow. Physics of Fluids, Vol. 27, Issue. 6,

Lopez, Juan M. and Hirsa, Amir H. 2015. Coupling of the interfacial and bulk flow in knife-edge viscometers. Physics of Fluids, Vol. 27, Issue. 4,

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Determination of surface shear viscosity via deep-channel flow with inertia

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