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A finite difference technique for solving the Newtonian jet swell problem

✍ Scribed by Chin-Tsu Han; Chin-Chin Tsai; Tsai-An Yu; Ta-Jo Liu

Publisher
John Wiley and Sons
Year
1992
Tongue
English
Weight
771 KB
Volume
15
Category
Article
ISSN
0271-2091

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✦ Synopsis

Abstract

A finite difference technique that incorporates a numerical mapping has been successfully applied to analyse both planar and axisymmetric Newtonian jets. A pressure gradient equation and a free‐surface slope equation have been derived for free‐surface iteration. The computation of pressure inside the jet surface using the pressure gradient equation is stable and accurate at high Reynolds numbers. The free‐surface slope equation is needed for updating the free surface and is applicable for jets with strong surface tension effects. The present development can simulate the Newtonian jets for Reynolds numbers as high as 2000 and capillary number as low as 10^βˆ’5^. Numerical predictions by the present technique are close to the results of previous finite element simulations.

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