Influence of \hbox Gas Mixture Parameters on the Effective Breakdown Temperature of the Free Electron Gas

This paper investigates the synergetic effect of the SF 6 -N 2 gas mixture, taking the effective temperature of the free electron Maxwell spectrum at the time of breakdown as an independent parameter. In this way, a direct link between a macroscopic variable (dc breakdown voltage of the mixture) and...

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Bibliographic Details
Published in:IEEE transactions on plasma science 2013-12, Vol.41 (12), p.3659-3665
Main Authors: Rajovic, Zoran, Vujisis, Milos, Stankovic, Koviljka, Osmokrovic, Predrag
Format: Article
Language:English
Subjects:
DC breakdown voltage
Electric breakdown
Electric currents
Electrodes
Electrons
free electron spectrum effective temperature
Gases
Ionization
Plasma temperature
Sulfur hexafluoride
Temperature effects
Temperature measurement
{\rm SF}_{6}\hbox{ > }{\rm N}_{2} gas mixture
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Summary:This paper investigates the synergetic effect of the SF 6 -N 2 gas mixture, taking the effective temperature of the free electron Maxwell spectrum at the time of breakdown as an independent parameter. In this way, a direct link between a macroscopic variable (dc breakdown voltage of the mixture) and a fundamental microscopic variable (effective temperature) is established. Derivations are presented of expressions that relate the streamer mechanism breakdown voltage in an SF 6 -N 2 gas mixture to the pd product (pressure×interelectrode distance), the percentage contribution of the N 2 gas (χ), and the effective temperature of the spectrum of free electrons in the mixture (T d ) at the time of breakdown (breakdown temperature). A new theoretical model for the dependence of the electron attachment coefficient (effective cross section) in the electronegative SF 6 gas was used, which resulted in the final expression being different from the corresponding expressions obtained from other models. The obtained results were verified by experiments, under well controlled laboratory conditions. There was a high degree of agreement between the experimental and the theoretically calculated results.
ISSN:0093-3813
1939-9375
DOI:10.1109/TPS.2013.2286153