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Numerical solution of the Navier-Stokes equation for flow past spheres: Part I. Viscous flow around spheres with and without radial mass efflux

✍ Scribed by A. E. Hamielec; T. W. Hoffman; L. L. Ross

Publisher
American Institute of Chemical Engineers
Year
1967
Tongue
English
Weight
794 KB
Volume
13
Category
Article
ISSN
0001-1541

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✦ Synopsis

This study was undertaken to ascertain the accuracy of finite-difference solutions for flow around spherical particles in the intermediate Reynolds number range. Comparison of the results with experimental data on drag coefficients, frontal stagnation pressure, and wake geometry indicated good agreement. The approximate solutions, in which the Galerkin method and asymptotic analytical predictions were utilized, were evaluated by using the finite-difference solutions as a standard. These methods were used to calculate the effect of uniform and nonuniform mass efflux on the drag and flow characteristics around a sphere. Theoretical solutions indicated that nonuniform mass efflux can significantly reduce the drag on a submerged object. Ranges of applicability of the approximate methods were established.

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Numerical solution of the steady incompr
Numerical solution of the steady incompressible Navier—Stokes equations for the flow past a sphere by a multigrid defect correction technique
✍ Gh. Juncu; R. Mihail 📂 Article 📅 1990 🏛 John Wiley and Sons 🌐 English ⚖ 723 KB

## Abstract A nested non‐linear multigrid algorithm is developed to solve the Navier–Stokes equations which describe the steady incompressible flow past a sphere. The vorticity–streamfunction formulation of the Navier–Stokes equations is chosen. The continuous operators are discretized by an upwind