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R. Urusov, F. Sultanova, T. Urusova (2011)
Numerical modelling of unsteady heating and melting of the anode by electric arc. Part 1. Mathematical model and computed characteristics of the arc columnThermophysics and Aeromechanics, 18
S.V. Patankar (1980)
Numerical Heat Transfer and Fluid Flow
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Computational Fluid Dynamics, Hermosa
P. Roache (1976)
Computational Fluid Dynamics
Vector field of the velocity U and temperature field Т in the melt. The effect of gravitational forces only
(1980)
Numerical Heat Transfer and Fluid Flow, Hemisphere
Manabu Tanaka, H. Terasaki, M. Ushio, J. Lowke (2003)
Numerical Study of a Free-Burning Argon Arc with Anode MeltingPlasma Chemistry and Plasma Processing, 23
A. Gosman (1969)
Heat and Mass Transfer in Recirculating Flows
S. Yakovenko, K. Chang (2008)
Volume fraction flux approximation in a two-fluid flowThermophysics and Aeromechanics, 15
W. Chen, J. Heberlein, E. Pfender (1996)
Critical analysis of viscosity data of thermal argon plasmas at atmospheric pressurePlasma Chemistry and Plasma Processing, 16
Abstract Numerical computations of the electric-arc heating and anode melting were carried out within the framework of the two-dimensional unsteady mathematical model. The influence of the viscous interaction “plasma-melt”, surface tension forces, electromagnetic forces, and gravitational convection on the formation of the hydrodynamics of the anode melt was considered.
Thermophysics and Aeromechanics – Springer Journals
Published: Mar 1, 2012
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