Computing internal viscous flow problems for the circle by integral methods

R. D. Mills

doi:10.1017/S0022112077000342

Abstract

Steady two-dimensional viscous motion within a circular cylinder generated by (a) the rotation of part of the cylinder wall and (b) fluid entering and leaving through slots in the wall is considered. Studied in particular are moving-surface problems with continuous and discontinuous surface speeds, simple inflow–outflow problems and the impinging-jet problem within a circle. The analytical solutions at zero Reynolds number are given for the last two types of problem. Numerical results are obtained at various Reynolds numbers from the integral representation of the solution. At zero Reynolds number this approach involves a quadrature around the circumference of the cylinder. At other Reynolds numbers it involves an iterative–integral technique based on the use of the ‘clamped-plate’ biharmonic Green's function.

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Computing internal viscous flow problems for the circle by integral methods

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

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Computing internal viscous flow problems for the circle by integral methods

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