Title :
Optimization of dead tank gas circuit breaker design based on quantification of hot gas flow and dielectric properties
Author :
Uchii, T. ; Nakamoto, T. ; Nishiwaki, S. ; Toyoda, M. ; Boggs, S.A.
Author_Institution :
TM T&D Corp., Kawasaki, Japan
Abstract :
This paper describes the technologies for developing a compact and highly reliable dead-tank gas circuit breaker (GCB) on the basis of extensive data on the behavior of hot gas flow and the mechanisms of ground fault under highly inhomogeneous thermal conditions. When predicting the dielectric capability of a GCB during a large current interruption, the temperature and gas density distributions caused by the hot gas must be taken into account in addition to the electrical field imposed across the gas. Hot gas behavior was investigated quantitatively and qualitatively, to provide a basis for determining optimum exhaust tube dimensions which minimize overall circuit breaker dimensions while avoiding ground faults.
Keywords :
SF6 insulation; dielectric properties; gas blast circuit breakers; gas insulated substations; optimisation; SF6; dead tank gas circuit breakers design; dielectric properties; electrical field; gas density distributions; gas insulated substation; ground fault; hot gas behavior; hot gas flow quantification; inhomogeneous thermal conditions; large current interruption; optimum exhaust tube dimensions; Cameras; Circuit breakers; Circuit faults; Design optimization; Dielectrics; Electric breakdown; Fluid flow; Land surface temperature; Plasmas; Transient analysis;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2003.820217
