Title :
Studies on effects of metal vapour in an experimental self-blast interrupter
Author :
Jain, H.S. ; Saxena, S.N. ; Agarwal, M.S.
Author_Institution :
Corp. Res. & Dev., BHEL, Hyderabad, India
fDate :
10/1/1999 12:00:00 AM
Abstract :
Low rate of energy transfer in self-blast interrupters results in slow build-up of pressure in the expansion-volume. The arcing continues (for 20 to 30 ms) till the pressure in the arcing chamber is sufficient to flush the arc and the arc-product from the inter-electrode space. To promote the energy transfer and the efficiency of a self-blast interrupter, use of metal-vapour as an energy transport acceleration device has been investigated for the first time on an experimental self-blast interrupter. The results indicate an appreciable rise in rate of energy transfer to the expansion-volume gas in the interrupter. Different energy transfer rates observed during experimentation with the metal-vapours of aluminium, silver and copper confirm the feasibility of using and controlling of such a mechanism in a self-blast interrupter
Keywords :
SF6 insulation; aluminium; arcs (electric); circuit-breaking arcs; copper; interrupters; silver; Ag; Al; Cu; SF6; aluminium vapour; arc flushing; arcing; arcing chamber pressure; copper vapour; efficiency transfer; energy transfer; energy transport acceleration device; expansion-volume; expansion-volume gas; inter-electrode space; metal vapour; self-blast interrupter; silver vapour; slow pressure build-up; Absorption; Acceleration; Copper; Delay effects; Energy exchange; Gas insulation; Interrupters; Laboratories; Large Hadron Collider; Magnetic fields;
Journal_Title :
Power Delivery, IEEE Transactions on
