Abstract
The familiar Segré-Silberberg effect of inertia-induced lateral migration of a neutrally buoyant rigid sphere in a Newtonian fluid is studied theoretically for simple shear flow and for two-dimensional Poiseuille flow. It is shown that the spheres reach a stable lateral equilibrium position independent of the initial position of release. For simple shear flow, this position is midway between the walls, whereas for Poiseuille flow, it is 0·6 of the channel half-width from the centre-line. Particle trajectories are calculated in both cases and compared with available experimental data. Implications for the measurement of the rheological properties of a dilute suspension of spheres are discussed.
Publisher
Cambridge University Press (CUP)
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics
Reference21 articles.
1. Repetti, R. V. & Leonard, E. F. 1966 Chem. Engng Prog. Symp. Ser. 62,80.
2. Starkey, T. V. 1956 Brit. J. Appl. Phys. 7,52.
3. Cox, R. G. & Brenner, H. 1968 Chem. Engng Sci. 23,147.
4. Segré, G. & Silberberg, A. 1962a J. Fluid Mech. 14,115.
5. Tachibana, M. 1973 Rheol. Acta,12,58.
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