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Study and Numerical Simulation of Negative and Positive Corona Discharge: A Review

Angel Asipuela, Tamás Iváncsy

2022Periodica Polytechnica Electrical Engineering and Computer Science15 citationsDOIOpen Access PDF

Abstract

Two models to describe the phenomenon of corona discharge are presented: the first is known as the plasma model which with plasma chemistry defines the volumetric and surface reactions among charge carriers such as electrons, positive, and negative ions. This model uses Poisson's equation and a formulation of the space-charge density to calculate the electric field necessary to solve the species transport equations. Besides, only the plasma model determines the density of the charge carriers. The second is a simplified model which describes the corona discharge in terms of current conservation coupled with Poisson's equation. This model does not have any connection with the attributes of plasma chemistry. Both models propose solutions for the electric potential and space charge density distribution from the corona electrode to the ground electrode.

Topics & Concepts

Corona dischargePoisson's equationSpace chargeElectric fieldPlasmaCorona (planetary geology)Charge conservationCharge densityPhysicsElectronPoisson distributionMechanicsCharge (physics)ElectrodeComputational physicsAtomic physicsQuantum mechanicsMathematicsStatisticsAstrobiologyVenusWater Quality Monitoring Technologies
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