• DocumentCode
    1528484
  • Title

    Effect of current connection to the anode nozzle on plasma torch efficiency

  • Author

    Collares, Magno P. ; Pfender, Emil

  • Author_Institution
    Div. de Mecanica e Elettricidade, Inst. de Pesquisas Tecnologicas, Sao Paulo, Brazil
  • Volume
    25
  • Issue
    5
  • fYear
    1997
  • fDate
    10/1/1997 12:00:00 AM
  • Firstpage
    864
  • Lastpage
    871
  • Abstract
    Experiments have been performed to demonstrate the influence of the location of the electric power connection to the anode nozzle on the efficiency of DC plasma torches. The DC plasma torch used in these experiments offers the flexibility to work with different anode geometries and the possibility of connecting the electrical power to the anode at two different locations. For each set of experiments, the controllable parameters such as total gas flow rate, gas composition, and electric current were kept constant, changing only the location of the electrical connection to the anode nozzle. The efficiency of the torch, derived from a conventional energy balance, shows a significant change as the location of the electrical connection to the anode nozzle is changed. The measured mean voltage as well as the amplitude of the voltage fluctuations were also affected by the location of the electrical connection to the anode nozzle. An explanation for the arc behavior is given, based on an analysis of the forces acting on the anode arc column and their influeuce on the variation of the arc column length. Experimental data are in good agreement with analytical predictions
  • Keywords
    anodes; arcs (electric); nozzles; plasma diagnostics; plasma flow; plasma fluctuations; plasma torches; plasma transport processes; DC plasma torches; anode arc column; anode geometries; anode nozzle; arc behavior; arc column length; current connection; electric current; electric power connection; electrical connection; electrical power; energy balance; forces; gas composition; mean voltage; plasma torch efficiency; total gas flow rate; voltage fluctuations; Anodes; Current; Fluid flow; Geometry; Nuclear and plasma sciences; Plasma applications; Plasma chemistry; Plasma devices; Thermal spraying; Voltage fluctuations;
  • fLanguage
    English
  • Journal_Title
    Plasma Science, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0093-3813
  • Type

    jour

  • DOI
    10.1109/27.649582
  • Filename
    649582