Abstract
The Vivitron tandem is a large electrostatic accelerator comprising a Van de Graaff generator designed to reach terminal voltages of around 30 MV. The machine is limited at rather lower nominal voltages (about 20 MV) due to the sensitivity of the insulating column structure to transient overvoltages. These are induced by electrical discharges in compressed SF{sub 6}. This thesis first aims at analysing the fundamental reasons of electrical discharges in order to limit the probability of their occurrence. Then we simulate the transient overvoltages induced and present some improvements which may lead to a stable behaviour of the Vivitron at nominal voltages higher than 20 MV. Initially we deduce discharge onset voltages and actual breakdown field limitations in the different gap geometries from analysis of possible breakdown mechanisms in compressed SF{sub 6}. In a second part, some electrical characteristics of the insulating column structure are measured at high voltage. Fast rising oscillating waves induced by sparking in the Vivitron, along with the associated energies,are determined in the third part. The last part deals with new surge protections of the insulating column structure. Spark gaps with precise onset voltage and optimized shielding electrodes are discussed. ZnO-based varistors designed for operation at
More>>
Citation Formats
Nolot, E.
Study of protection devices against the effects of electric discharges inside a very high voltage generator: the Vivitron accelerator; Etude de dispositifs de protection contre les effets des decharges electriques au sein d`un generateur de tres haute tension: l`accelerateur Vivitron.
France: N. p.,
1996.
Web.
Nolot, E.
Study of protection devices against the effects of electric discharges inside a very high voltage generator: the Vivitron accelerator; Etude de dispositifs de protection contre les effets des decharges electriques au sein d`un generateur de tres haute tension: l`accelerateur Vivitron.
France.
Nolot, E.
1996.
"Study of protection devices against the effects of electric discharges inside a very high voltage generator: the Vivitron accelerator; Etude de dispositifs de protection contre les effets des decharges electriques au sein d`un generateur de tres haute tension: l`accelerateur Vivitron."
France.
@misc{etde_574820,
title = {Study of protection devices against the effects of electric discharges inside a very high voltage generator: the Vivitron accelerator; Etude de dispositifs de protection contre les effets des decharges electriques au sein d`un generateur de tres haute tension: l`accelerateur Vivitron}
author = {Nolot, E}
abstractNote = {The Vivitron tandem is a large electrostatic accelerator comprising a Van de Graaff generator designed to reach terminal voltages of around 30 MV. The machine is limited at rather lower nominal voltages (about 20 MV) due to the sensitivity of the insulating column structure to transient overvoltages. These are induced by electrical discharges in compressed SF{sub 6}. This thesis first aims at analysing the fundamental reasons of electrical discharges in order to limit the probability of their occurrence. Then we simulate the transient overvoltages induced and present some improvements which may lead to a stable behaviour of the Vivitron at nominal voltages higher than 20 MV. Initially we deduce discharge onset voltages and actual breakdown field limitations in the different gap geometries from analysis of possible breakdown mechanisms in compressed SF{sub 6}. In a second part, some electrical characteristics of the insulating column structure are measured at high voltage. Fast rising oscillating waves induced by sparking in the Vivitron, along with the associated energies,are determined in the third part. The last part deals with new surge protections of the insulating column structure. Spark gaps with precise onset voltage and optimized shielding electrodes are discussed. ZnO-based varistors designed for operation at very high fields have also been developed in order to reduce transient overvoltage values. (author). 122 refs.}
place = {France}
year = {1996}
month = {Oct}
}
title = {Study of protection devices against the effects of electric discharges inside a very high voltage generator: the Vivitron accelerator; Etude de dispositifs de protection contre les effets des decharges electriques au sein d`un generateur de tres haute tension: l`accelerateur Vivitron}
author = {Nolot, E}
abstractNote = {The Vivitron tandem is a large electrostatic accelerator comprising a Van de Graaff generator designed to reach terminal voltages of around 30 MV. The machine is limited at rather lower nominal voltages (about 20 MV) due to the sensitivity of the insulating column structure to transient overvoltages. These are induced by electrical discharges in compressed SF{sub 6}. This thesis first aims at analysing the fundamental reasons of electrical discharges in order to limit the probability of their occurrence. Then we simulate the transient overvoltages induced and present some improvements which may lead to a stable behaviour of the Vivitron at nominal voltages higher than 20 MV. Initially we deduce discharge onset voltages and actual breakdown field limitations in the different gap geometries from analysis of possible breakdown mechanisms in compressed SF{sub 6}. In a second part, some electrical characteristics of the insulating column structure are measured at high voltage. Fast rising oscillating waves induced by sparking in the Vivitron, along with the associated energies,are determined in the third part. The last part deals with new surge protections of the insulating column structure. Spark gaps with precise onset voltage and optimized shielding electrodes are discussed. ZnO-based varistors designed for operation at very high fields have also been developed in order to reduce transient overvoltage values. (author). 122 refs.}
place = {France}
year = {1996}
month = {Oct}
}