Title :
Stability of liquid metal in alternating electric field
Author_Institution :
Moscow State Univ. of Aircraft Technol., Russia
Abstract :
The stability of liquid metal layer in an electric field is considered, when the field has a temporal periodic component. This case is an extension of the known Tonks-Frenkel theory of conductive liquid instability in a DC electric field. A periodic field of moderate intensity makes the initiation of instability of surface perturbations easier than the application of a DC field alone. A linear theory of surface perturbation growth in a periodic electric field is developed and applied for the analysis of situations typical for droplet formation in high voltage devices. Two examples of the instability are assessed: behavior of a liquid metal ion source in an oscillating electric field and the motion of the electrode melt in a vacuum arc under fluctuating arc voltage
Keywords :
electric fields; electrodes; electrohydrodynamics; flow instability; liquid metals; vacuum arcs; Tonks-Frenkel theory; alternating electric field; conductive liquid instability; droplet formation; electrode melt motion; fluctuating arc voltage; liquid metal ion source; liquid metal stability; surface perturbation growth; surface perturbations; temporal periodic component; vacuum arc; Anodes; Delay estimation; Electrodes; Equations; Ion sources; Stability; Surface discharges; Vacuum arcs; Vacuum breakdown; Voltage;
Conference_Titel :
Discharges and Electrical Insulation in Vacuum, 2000. Proceedings. ISDEIV. XIXth International Symposium on
Conference_Location :
Xi´an
Print_ISBN :
0-7803-5791-4
DOI :
10.1109/DEIV.2000.877259
