Progress in Plasma Processing of Materials, 2001
ISBN Print: 1-56700-165-3
MATHEMATICAL MODEL FOR PARTICLES HEATING IN TUBULAR TRANSFERRED PLASMA ARC
DOI: 10.1615/ITPPC-2000.930
pages 713-720
Sinopsis
PLASMALAB has designed and manufactured a plasma-arc remelting furnace with water cooled copper crystallizer for effective fine scrap (turnings) remelting and for obtaining high quality continuous casting ingots.
An original transferred arc plasma torch with hollow cathode was developed. The special feature of this construction is that the processed material is blown with additional plasma gas through the hollow cathode into the space inside the tubular plasma arc.
Through simulation modeling the speed and the temperature field of tubular plasma arc were determined.
Solving the heat conductivity equation for spherical particle made it possible to determine the duration of heating and smelting and the optimal energy and geometrical parameters of the tubular plasma arc.
An original transferred arc plasma torch with hollow cathode was developed. The special feature of this construction is that the processed material is blown with additional plasma gas through the hollow cathode into the space inside the tubular plasma arc.
Through simulation modeling the speed and the temperature field of tubular plasma arc were determined.
Solving the heat conductivity equation for spherical particle made it possible to determine the duration of heating and smelting and the optimal energy and geometrical parameters of the tubular plasma arc.
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