Effect of a cylindrical shroud on particle conditions in high velocity oxy-fuel spray process |
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Authors: | A. Dolatabadi J. Mostaghimi V. Pershin |
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Affiliation: | 1. mostag@mie.utoronto.ca;3. Department of Mechanical and Industrial Engineering,University of Toronto, 5 King’s College Road, Toronto, Ont, Canada M5S 3G8 |
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Abstract: | Simulations of solid particles in a highly compressible gas flow in the high velocity oxy-fuel (HVOF) process are presented. The Eulerian formulation is used for the gas flow, and the particl phase is modeled by the Lagrangian method. Effects of attaching a cylindrical shroud to the end of the supersonic HVOF nozzle on gas and particle flows are analyzed. We found that the shroud significantly reduces the oxygen content in the field by protecting the supersonic jet from ambient air entrainment. The validation experiments were performed for the majority of process parameters such as shock formation, particle conditions, and coating oxygen content. |
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Keywords: | High velocity oxy–fuel Cylindrical shroud Supersonic jet |
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