Title :
Theoretical analysis of the current and energy flow to the anode in the diffuse vacuum arc
Author :
Wieckert, Christian ; Egli, Walter
Author_Institution :
ASEA Brown Boveri Corp., Baden-Dattwil, Switzerland
fDate :
10/1/1989 12:00:00 AM
Abstract :
The current energy flow to the anode in a diffuse vacuum arc is investigated using a simple multicathode-spot fluid description of the interelectrodic plasma. Decisive for the current constriction and the energy flow to the anode center is the space-charge sheath in front of the anode. This sheath not only determines the current-density distribution at the anode, but also may lead to a strong energy gain of the electrons before they reach the anode surface (in case the anode drop appears to be positive in the anode center). Numerical results are given and two possible scenarios for the transition from the diffuse to the anode-spot mode are discussed
Keywords :
anodes; arcs (electric); plasma sheaths; plasma transport processes; anode; anode-spot mode; current; current constriction; current-density distribution; diffuse mode; diffuse vacuum arc; electrons; energy flow; energy gain; interelectrodic plasma; multicathode-spot fluid; space-charge sheath; Anodes; Boundary conditions; Current density; Electrons; Elementary particle vacuum; Interrupters; Plasma density; Plasma sheaths; Plasma temperature; Vacuum arcs;
Journal_Title :
Plasma Science, IEEE Transactions on
