Fundamental investigation of ARC interruption in gas flows
Abstract
Thermal recovery in gas blast interrupters is discussed. The thermal recovery process was investigated with physical and aerodynamic methods, typically using reduced size nozzles and short sinusoidal current pulses. Aerodynamic characterization of the cold flow fields in several different nozzle types included measurements of the pressure and flow fields, both steady-state and turbulent components, with special attention given to wakes and shock structures. Special schlieren techniques on DC arcs and high speed photography on arcs in orifice nozzles show that shock heating broadens the arc independent of turbulence effects and produces a poorly recovering downstream arc section. Measured recovery speeds in both orifice and convergent-divergent nozzles agree with predictions of several arc theories assuming turbulent power losses. However, data on post-zero currents and power loss show values much smaller than theoretical predictions. Hydrogen, deuterium, and methane were measured.
- Publication:
-
Final Report General Electric Co
- Pub Date:
- July 1980
- Bibcode:
- 1980gec..reptQ....B
- Keywords:
-
- Arc Discharges;
- Circuit Breakers;
- Electric Switches;
- Gas Flow;
- Aerodynamic Characteristics;
- Gas Composition;
- Gas Jets;
- Nozzle Design;
- Shock Heating;
- Turbulence Effects;
- Electronics and Electrical Engineering