Corona Discharge and Ozone Generation Characteristics of a Wire-to-Wire Plasma Reactor with a Ferroelectric Pellet Layer

강유전체층을 갖는 선대선 방편 플라즈마장치의 코로나 방전 및 오존발생 특성

  • 문재덕 (경북대학교 전자전기컴퓨터학부) ;
  • 신정민 (경북대 대학원 전기공학) ;
  • 한상옥 (충남대학교 전기공학과)
  • Published : 2004.07.01

Abstract

A discharge plasma reactor using a ferroelectric pellet packed bed is now used as a removal means of pollutant gases, such as NOx, SOx and VOCs. When an ac voltage is applied to this plasma reactor, then the pellets are polarized, and great electric fields are formed at each top and bottom contact points of the ferroelectric pellets. Thus the points of each pellet become covered with intense corona discharges, where an electrophysicochemical reaction is taking place strongly However these strong discharges also elevate the temperature of the pellets greatly and concurrently decrease the output ozone generation, as a result, the overall removal efficiency of gas becomes decreased greatly A new configuration of discharge plasma reactor using a ferroelectric pellet layer and a wire-to-wire electrode has been proposed and investigated experimentally. It is found that an intensive microdischarge is taking place on the surface of ac corona-charged ferroelectric pellet layer of the proposed reactor, which concurrently enhances the efficiency of plasma generation greatly And, this type of configuration of plasma reactor utilizing a wire-to-wire electrode and a ferroelectric pellet layer could be used as one of effective plasma reactors to remove pollutant gas.

Keywords

References

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