On the Motion of Small Particles Freely-suspended in Laminar Shearing FlowsStanford University, 1968 - 186 pages |
Contents
Introduction | 5 |
Limiting expression for the effective viscosity | 11 |
Comparison with experiment and other theories | 15 |
11 other sections not shown
Common terms and phrases
A₂ apparent stress field assumed asymptotic curves behavior boundary conditions bubble C₁ closed streamline coefficients concentrated suspension constitutive equation convection curves cylinder defined denotes dilute suspension Doctor of Philosophy effective viscosity Einstein Einstein summation convention equation 26 flow field fluid freely-suspended G. I. Taylor given Goddard and Miller heat hence inertial effects infinity inner region integral iterations ith sphere macroscopic motion neighboring spheres normal stress Nusselt number obtained Oldroyd outer region P₂ Pan and Acrivos Péclet number problem rate of deformation rate of viscous Reynolds number rheology shear flow shear rate simple shear sin2 small particles solid spheres solution spherical coordinates STANFORD LIBRARIES Stokes stream function surface suspension of solid temperature field uniform flow velocity field viscous dissipation zero αβ ән єа მუ