Ozone Generation Synergy Effects of Three-Phase Voltage Apply Type Superposed Discharge Ozonizer

3상 전압인가형 중첩방전 오존발생기의 오존생성 상승효과

  • 이병준 (영남대 전기전자공학부) ;
  • 이상근 (영남대 전기전자공학부) ;
  • 송현직 (영남대 공업기술연구소) ;
  • 김영훈 (포항1대학 전기과·) ;
  • 박원주 (영남대 전기전자공학부·) ;
  • 이광식 (영남대 전기전자공학부·)
  • Published : 2000.08.01

Abstract

Nowadays, ozone is mainly utilized for water treatment and home equipments. Although the demand for ozone is increasing, the ozone yield of silent discharge type ozonizer is low. Therefore, it is expected to improve the energy efficiency and ozone yield of an ozonizer. In this paper, a new ozone generation system is proposed. The 60[Hz] three-phase voltage is applied to three-phase superposed discharge type ozonizer(3PSDO) which has three electrodes(central, internal and external electrodes). There is no discharge pause time when three-phase voltage is applied due to 120-degree phase difference of applied voltage. The synergy effect of the three-phase superposed discharge type ozonizer is investigated by comparing with the three sort of single-phase discharge type ozonizer(1PDO). So, three-phase superposed discharge type ozonizer is able to obtain high ozone yield, and optimize discharge space, because this can increase the discharge power at low applied voltage.

Keywords

References

  1. 李廣植, 李東仁, '氣體放電에 의한 오존생성과 그 應用', 大韓電氣學會 放電.高電壓(硏), 學術發表會論文集, pp.32-35, 1992
  2. Jen Shih Chang,'Corona discharge processes', IEEE Trans. Plasma Science, Vol.19, No.8, 1991 https://doi.org/10.1109/27.125038
  3. 杉光英俊, 'オゾンの基礎ど應用', 光琳
  4. 전병준, '環境改善을 위한 新 오존발생기에 관한 연구', 석사학위논문, 1998
  5. 전병준, 이광식외, 'Mesh형 내부전극을 사용한 2중 원통형 오존발생기의 온도의존특성', 영남대 공업기술연구소 논문집, Vol.27, No.1, pp.51-56, 1999
  6. 전병준, 이광식외, '3상 전압을 사용한 중첩방전형 오존발생기의 오존생성 및 방전잡음특성', 한국조명전기설비학회 논문지, Vol.14, No.2, pp.59-67, 2000
  7. B.Eliasson & U'Kogeischatz et al, 'Ozone synthesis from oxygen in dielectric barrier discharges', J.Phys.D, Appl.Phys., 20, pp.1421 - 1437, 1987 https://doi.org/10.1088/0022-3727/20/11/010
  8. B.Eliasson & D.Kogeischatz, 'Modeling & applications of silent discharge plasma', IEEE translation on plasma science, Vol.19, No.2, pp.309 - 323, 1991 https://doi.org/10.1109/27.106829
  9. J. Olof Nilsson et al, 'Numerical Modeling of Ozone Production in a Pulsed Homogeneous Discharge: A Parameter Study', IEEE translation on plasma science, Vol. 25, No.1, pp.73 - 82, 1997 https://doi.org/10.1109/27.557488
  10. B. J. Chun, K. S. Lee et al. 'The Characteristics of Double Gap Type ozonizer Using Three-Phase Voltage', The 9th Aisan Conference on Electrical Discharge, pp.B2-1, 1998
  11. 岸田治夫 外, '三相交流電壓によるオゾン生成システム', 電氣論A, 117卷, 6號, pp.565-570, 平成9年
  12. R. Feng et al, 'Automated system for power measurement in the silent discharge', IEEE Trans. Indus Appl, Vol34, No3, pp.563 - 570, 1998 https://doi.org/10.1109/28.673727
  13. Shengpei Wang et al, 'A Noble Silent Discharge Type Ozonizer Using Pulse Density Modulated High-Frequency Inverter', Proceeding of the IEEE Industry Applications Meeting, Vol.2, 1999