Fingering instability of self-similar radial flow of miscible fluids in a Hele-Shaw cell

Abstract

The linear stability of miscible displacement for radial source flow at infinite P\'eclet number in a Hele-Shaw cell is calculated theoretically. The axisymmetric self-similar flow is shown to be unstable to viscous fingering if the viscosity ratio m between ambient and injected fluids exceeds 32 and to be stable if m<32. If 1<m<32 small disturbances decay at rates between t-3/4 and t-1 relative to the t1/2 radius of the axisymmetric base-state similarity solution; if m<1 they decay faster than t-1. Asymptotic analysis confirms these results and gives physical insight into various features of the numerically determined relationship between the growth rate and the azimuthal wavenumber and viscosity ratio.

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