A numerical study of turbulent opposed impinging jets issuing from triangular nozzles with different geometries |
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Authors: | Kiyan Parham Esmaeil Esmaeilzadeh Ugur Atikol L B Y Aldabbagh |
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Institution: | (1) Department of Mechanical Engineering, Eastern Mediterranean University, G. Magosa, TRNC, Mersin 10, Turkey;(2) Mechanical Engineering Department, University of Tabriz, P.O. Box 51666-16471, Tabriz, Iran |
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Abstract: | In present research, two turbulent opposed impinging air jets issuing from triangular nozzles with fixed and variable exit
velocity ratios and different nozzle-to-nozzle distances have been studied numerically and then compared with rectangular
and circular nozzles. The finite volume method has been applied for solving mass and momentum equations. The turbulence model
being used here is k-ε RNG. Distributions of pressure, turbulence, kinetic energy and its dissipation rate in various regions
especially on the impingement regions have been obtained with high accuracy. Study of the nozzle geometries has shown the
advantage of triangular nozzles over other geometries. First, the triangle’s base in nozzle geometry has an important role
in our study case which, mixing two flows and regions with high turbulence intensity, directly depends on it. Second, our
results show that circular and rectangular nozzles have less efficiency than triangular nozzles in mixing applications. Third
and last, it was found that the radial jet being created by opposed jets has some similarities to free jets. In this investigation,
air in standard atmospheric pressure has been applied as working fluid. |
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