Steam Torch Plasma Modelling

Steam Torch Plasma Modelling

Numerical modelling of physical properties and processes in an electric arc stabilized by a water vortex (steam torch) has been summarized in this review paper. One-fluid MHD equations are numerically solved for an axisymmetric thermal plasma flow inside a discharge chamber of the steam plasma torch...

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Veröffentlicht in:Plasma chemistry and plasma processing 2017-05, Vol.37 (3), p.653-687
1. Verfasser: Jeništa, Jiří
Format: Artikel
Sprache:eng
Schlagworte:
Axisymmetric flow
Centrifugal force
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Classical Mechanics
Compressibility
Computational fluid dynamics
Computer simulation
Conduction heating
Conduction losses
Coriolis force
Current voltage characteristics
Evaporation rate
Inorganic Chemistry
Magnetohydrodynamics
Mass flow rate
Mathematical models
Mechanical Engineering
Nozzles
Original Paper
Physical properties
Plasma
Plasma arc heating
Plasma jets
Radial velocity
Rotating plasmas
Rotation
Steam flow
Temperature profiles
Thermal plasmas
Variations
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Zusammenfassung:Numerical modelling of physical properties and processes in an electric arc stabilized by a water vortex (steam torch) has been summarized in this review paper. One-fluid MHD equations are numerically solved for an axisymmetric thermal plasma flow inside a discharge chamber of the steam plasma torch. The steady state solution results are discussed for the range of currents 300–600 A with relatively low steam flow rate of about 0.3 g s −1 . The maximum obtained velocities and temperatures—8500 m s −1 , 26,300 K, are reported at the centre of the nozzle exit for 600 A. The evaporation of water, i.e. mass flow rate of steam, was predicted from a comparison between the present simulation and experiments. The generated plasma is mildly compressible (M 
ISSN:0272-4324
1572-8986
DOI:10.1007/s11090-017-9789-7