Journal of the Korean Institute of Illuminating and Electrical Installation Engineers (조명전기설비학회논문지)

The Korean Institute of IIIuminating and Electrical Installation Engineers (한국조명전기설비학회)
권호 표지
DOI QR코드

DOI QR Code

Breakdown Characteristics Assess of Imitation-Air for Distribution Power Facilities

배전급 전력설비를 위한 제조공기의 절연성 평가

  • 이광식 (영남대학교 전기공학과) ;
  • 도영회 (한국전력공사 대구전력관리처) ;
  • 최은혁 (영남대 대학원) ;
  • 이창욱 (영남대학교 전기공학과) ;
  • 박광서 (경일대학교 전기공학과) ;
  • 김이국 (경일대학교 전기공학과)
  • Published : 2008.02.29
Download PDF
⟨ Previous Next ⟩

Abstract

With the improvement of industrial society, the high quality electrical energy, simplification of operation and maintenance, ensuring reliability are being required. We request urgently change a $SF_6$ for an environment friendly gas insulation material. In this paper the experiments of breakdown characteristics by pressure and gap change of Imitation-Air in model GIS(Gas Insulated Switchgear) were described. Also assess of breakdown characteristics about Imitation-Air and $SF_6$. It is considered in this paper that the results are fundamental data for electric insulation design of Distribution Power Facilities which will be studied and developed in the future. The pressure to be confronted to $SF_6$ gas 1[atm] for Distribution Power Facilities is Imitation-Air 3[atm]. And we could make an environment friendly gas insulation material with maintaining dielectric strength by Imitation-Air which generates a lower level of the global warming effect.

현재 산업사회의 발달과 더불어 신뢰성 높은 양질의 전기에너지와 운전 및 보수의 간편화, 계통운용의 신뢰성의 확보가 요구되고 있다. 또한 $SF_6$을 대체할 친환경적인 절연매체의 개발이 절실히 요구되고 있다. 이에 본 연구는 모의 GIS내 제조공기의 압력 및 갭 변화에 따른 전원별 절연특성을 구명하였다. 또한 배전급 전력설비에 적용을 위하여 제조공기와 $SF_6$의 절연특성을 비교 평가하였다. 제조공기의 절연특성을 구명함으로서 각종 전력응용 설비의 절연설계에 $SF_6$ 대신 친환경적인 모의공기를 사용 가능함을 본 연구에서 구명하였다. 배전급 $SF_6$ 1[atm]의 절연파괴전압에 상응하는 제조공기의 압력이 약 3[atm]으로 확인되었다. 제조공기를 이용한 친환경적인 절연재 사용으로 지구의 온난화현상 감소에 크게 기여할 것으로 기대된다.

Keywords

References

  1. Landry, M. et al. 'Dielectric withstand and breaking capacity of SF6 circuit breakers at low temperatures' Power Delivery, IEEE Transactions on, pp. 1029-1035, July 1988
  2. Gong Guoli et al, 'The influence of $SF_6$ and $SF_6$/N2 dissociating products on the electrical performance of several insulating varnishes', Electrical Insulating Materials, pp. 495-497, 1995
  3. T.Ueda et al, 'Discrimination of Partial Discharge Electromagnetic Signal in $SF_6$ Gas from External Noise Using Phase Gate Control Method', IEEE International Symposium on Electrical Insulation, pp. 117-120, 1996
  4. C.Beyer et al. 'Influence Reactive SFX Gases on Electrode Surfaces after Electrical Discharge under $SF_6$ Atmosphere', IEEE Trans, pp. 234-240, 2000
  5. Kwang-Sik Lee, 'A Study on the Discharge Characteristics of Liquid Nitrogen and Gases at Very Low Temperature', KEPCO, 1993.8
  6. Kyeung-Tae Park, 'The Characteristics of Discharge and Radiated Electromagnetic Waves with a Variation of Temperature in $SF_6$6', Yeungnam Univ. , 2002.12
  7. Kwang-Sik Lee, 'The Characteristics of Insulation with Temperature Variations of $SF_6$' KIEE Vol 52C No 8, 2003.8
  8. Kwang-Sik Lee, Eun-Hyuck Choi, 'The Positive Effect and the Breakdown Characteristics in $SF_6$ and LN2', KIEE Vol 54C No 8, 2005, 8
  9. Naoki 'Streamer and Leader Discharge Propagation Characteristics Leading to Breakdown in Electron in Electronegative Gases' IEEE, 2006
  10. Kwang-Sik Lee, Eun-Hyuck Choi, 'Breakdown characteristics of $SF_6$ at various temperature under AC High-Voltage' IEEE - ICPADM 2006, 2006.06
  11. 이광식 외, ' 평등전계에서 $SF_6$와 건조공기의 압력별에 따른 절연특성 연구', 한국조명전기설비학회 추계학술대회 논문집, 2007.11