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Simple computation of ignition voltage of self-sustaining gas discharges

Pedro Almeida, R M S Almeida, Nuno Ferreira, G V Naĭdis, M. S. Benilov

2020Plasma Sources Science and Technology16 citationsDOIOpen Access PDF

Abstract

Abstract A robust, fast, and accurate numerical method is proposed for finding the voltage of the ignition of DC self-sustaining gas discharges in a wide range of conditions. The method is based on physical grounds and builds up from the idea that the ignition of a self-sustaining gas discharge should be associated with a resonance that would occur in a non-self-sustained discharge in the same electrode configuration. Examples of the application of the method are shown for various configurations: parallel-plate discharge, coaxial and wire-to-plane corona discharges, and a discharge along a dielectric surface. The results conform to the conventional Townsend breakdown condition for the parallel-plate configuration and are in good agreement with existing experimental data for the other configurations. The method has the potential of providing a reference point for optimization of the hold-off capability of high-power switchgear operating in low-frequency fields.

Topics & Concepts

SwitchgearCorona dischargeIgnition systemCoaxialPartial dischargeComputationVoltageElectric discharge in gasesCorona (planetary geology)MechanicsRange (aeronautics)Self-dischargeMillisecondPower (physics)Materials scienceAcousticsElectrical engineeringComputer sciencePhysicsEngineeringAerospace engineeringQuantum mechanicsBattery (electricity)AlgorithmAstronomyVenusComposite materialAstrobiologyHigh voltage insulation and dielectric phenomenaLightning and Electromagnetic PhenomenaAerosol Filtration and Electrostatic Precipitation
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