1-Dimensional Simulation of the Corona Discharge using Fluid Method

유체법을 이용한 코로나 방전의 1차원 수치해석

  • 이용신 (기아자동차 중앙기술연구소) ;
  • 심재학 (한양대학교 공대 전기공학과) ;
  • 고광철 (한양대학교 공대 전기공학과) ;
  • 강형부 (한양대학교 공대 전기공학과)
  • Published : 1997.04.01

Abstract

It is likely that the corona discharge appears due to the motion and the multiplication of electron and ion under the nonuniform electric field. Because the motion and the multiplication of electron and ion are the function of electric field, for the simulation of the corona discharge, we have to calculate the electric field, before the calculation of the motion and the multiplication of electron and ion. In this paper, the electric field is calculated on the assumption that the gap between a hyperboloidal needle and a plane is 1-dimension, and the motion and the multiplication of electron and ion are determined by Flux-Corrected Transport method. For this purpose, we solve the electron and ion continuity equation together with Poisson equation. We calculated the current density and the electron and ion density distributions between electrodes as well as electric field distortion due to the space charge assuming that the discharge channel radius is 100${\mu}{\textrm}{m}$. In this simulation, it is found that the current density has one peak as observed by experiment, and electric field distortion is important to the formation and the stability of the corona discharge.

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