• DocumentCode
    912806
  • Title

    Calculation of the impedance of an induction plasma with a thick-walled cold crucible

  • Author

    Chentouf, A. ; Fouladgar, J. ; Develey, G.

  • Author_Institution
    LRTI/CRTT, Saint-Nazaire, France
  • Volume
    32
  • Issue
    3
  • fYear
    1996
  • fDate
    5/1/1996 12:00:00 AM
  • Firstpage
    1030
  • Lastpage
    1033
  • Abstract
    A package was developed to predict the current distribution in a radiofrequency (RF) induction plasma installation with a thick walled cold crucible. As the geometry of the system is three dimensional, a combined axisymmetric and 2D model is used to calculate the electromagnetic vector potential in the inductor, at the walls of the cold crucible and inside the plasma. The model permits the determination of the electric parameters such as impedance, total power and eddy losses in the inductor and the cold crucible under different operating conditions. The electromagnetic and thermal equations, inside the plasma, are solved numerically by the control volume method (CVM). The results obtained by this model are compared with experimental measurements. Results are given for an argon plasma under atmospheric pressure
  • Keywords
    current distribution; electric impedance; electromagnetic fields; induction heating; inductors; plasma applications; plasma radiofrequency heating; power inductors; temperature distribution; thermal analysis; Ar; RF induction plasma heating; axisymmetric 2D model; computer simulation; control volume method; current distribution; eddy losses; electromagnetic equations; electromagnetic vector potential; impedance; inductor; software; thermal equations; thick walled cold crucible; total power; Atmospheric-pressure plasmas; Current distribution; Geometry; Impedance; Inductors; Packaging; Plasma applications; Plasma measurements; Power system modeling; Radio frequency;
  • fLanguage
    English
  • Journal_Title
    Magnetics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9464
  • Type

    jour

  • DOI
    10.1109/20.497416
  • Filename
    497416