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

Volume

3

fYear

2003

fDate

13-17 July 2003

Firstpage

1935

Lastpage

1935

Abstract

Summary form only given. 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

dielectric materials; electric fields; gas blast circuit breakers; optimisation; dead tank gas circuit breaker design; dielectric properties; electrical field; exhaust tube dimensions; gas density distributions; gas-insulated substation; ground fault; hot gas flow; inhomogeneous thermal conditions; optimization; temperature density distributions; Circuit breakers; Circuit faults; Design optimization; Dielectrics and electrical insulation; Fluid flow; Gas insulation; Geographic Information Systems; Substations; Thermal engineering;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Engineering Society General Meeting, 2003, IEEE

Print_ISBN

0-7803-7989-6

Type

conf

DOI

10.1109/PES.2003.1267464

Filename

1267464