Abstract
A mathematical representation is developed for describing the flow field in liquids or melts, agitated by a symmetrically placed impinging gas jet. The problem is formulated by the statement of the axi-symmetrical turbulent fluid flow equations using the Prandtl-Komogorov model for the eddy viscosity. The resultant differential equations are solved numerically and the computed results are shown to be in reasonable agreement with experimental data reported in the literature. This problem is thought to be relevant to various metals refining operations and the results should also be helpful for the interpretation of laboratory scale studies in which molten metals are contacted with impinging gas jets.
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