Title :
Design, modeling, and verification of a high-pressure liquid dielectric switch for directed energy applications
Author :
Leckbee, Joshua J. ; Curry, Randy D. ; McDonald, Kenneth F. ; Cravey, W. Ray ; Anderson, Glenn ; Heidger, Susan
Author_Institution :
Dept. of Electr. Eng., Univ. of Missouri-Columbia, Columbia, MO, USA
Abstract :
A high-power liquid dielectric switch is being developed to satisfy the requirements for future directed energy applications. A flowing, high-pressure liquid dielectric was chosen for the design of a megavolt class switch operating at 100 pps. This paper reports on the design philosophy, modeling, and experimental results of a full size, single-shot prototype 250-300 kV concept validation test (CVT) switch which can transfer kilojoules per pulse. Analysis of design criteria and scaling for a compact, 100-pps, kilojoule, high-voltage switch are presented. Optimization studies indicate that a pressure range of 6.9-13.8 MPa (1000-2000 psi) appears to be ideally suited to a flowing dielectric rep-rate switch.
Keywords :
circuit simulation; dielectric liquids; optimisation; switchgear; switchgear testing; 250 to 300 kV; 6.9 to 13.8 MPa; concept validation test switch; directed energy applications; flowing dielectric switch; high-pressure liquid dielectric switch; optimization; Dielectric liquids; Electrodes; Ionization; Laboratories; Petroleum; Prototypes; Pulse modulation; Sparks; Switches; Testing; Directed energy; high pressure; high-voltage switch; liquid dielectric; megawatt switch; oil switch; rep-rate switch; spark gap;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2004.835955
