Unified Reliability and Its Cost Evaluation in Power Distribution Systems Considering the Voltage Magnitude Quality and Demand Varying Load Model

전압 크기의 품질 및 전력수요 변동모델을 고려한 배전계통의 통합적인 신뢰도 및 비용 평가

  • Published : 2003.12.01

Abstract

In this paper, we propose new unified methodologies of reliability and its cost evaluation in power distribution systems. The unified method means that the proposed reliability approaches consider both conventional evaluation factor, i.e. sustained interruptions and additional ones, i.e. momentary interruptions and voltage sags. Because the three voltage quality phenomena generally originate from the outages on distribution systems, the basic and additional reliability indices are summarized considering the fault clearing mechanism. The proposed unified method is divided into the reliability evaluation for calculating the reliability indices and reliability cost evaluation for assessing the damage of customer. The analytic and probabilistic methodologies are presented for each unified reliability and its cost evaluation. The time sequential Monte Carlo technique is used for the probabilistic method. The proposed DVL(Demand Varying Load) model is added to the reliability cost evaluation substituting the average load model. The proposed methods are tested using the modified RBTS(Roy Billinton Test System) form and historical reliability data of KEPCO(Korea Electric Power Corporation) system. The daily load profile of the each customer type in domestic are gathered for the DVL model. Through the case studies, it is verified that the proposed methods can be effectively applied to the distribution systems for more detail reliability assessment than conventional approaches.

Keywords

References

  1. R. Billinton and R.N. Allan, Reliability evaluation of power systems (second edition), New York: Plenum Press, 1996
  2. R. Billinton and W. Li, Reliability assessment of electric power systems using Monte Carlo methods, New York: Plenum Press, 1994
  3. R. Billinton and P. Wang, 'Distribution system reliability cost/worth analysis using analytical and sequential simulation techniques,' IEEE Trans. on PWRS, vol.13, no.4, pp.1245-1250, Nov. 1998 https://doi.org/10.1109/59.736248
  4. T. S. Key, 'Diagnosing power-quality related computer problems,' IEEE Trans. on Ind. Appl., vol. 15, no.4, pp.381-393, Jul. 1979 https://doi.org/10.1109/TIA.1979.4503677
  5. IEEE recommended practice for monitoring electric power quality, IEEE Std. 1159, 1995
  6. Y. Sekine, T. Yamamoto, S. Mori, N. Saito, and H. Kurokawa, 'Present state momentary voltage dip interference and the countermeasures in Japan,' CIGRE 36-206, Sep. 1992
  7. S.-Y. Yun, J.-C. Kim, J.-H. Oh, and S.-J. Rim, 'Present state analysis of customers' effect in power distribution system by momentary voltage variation,' Journal of the KIEE, vol.12, no.4, pp.37-46, Nov. 1998
  8. L. E. Conrad and Math H. J. Bollen, 'Voltage sag coordination for reliable plant operation,' IEEE Trans. on Ind. Appl., vol.33, no.6, pp.1459-1464, Nov./Dec. 1997 https://doi.org/10.1109/28.649956
  9. S.-Y. Yun and J.-C. Kim, 'An evaluation method of voltage sag using a risk assessment model in power distribution system,' Int. Jr. of EP&ES(Elsevier Science), vol.25, no.10, pp.829-839, Dec. 200 https://doi.org/10.1016/S0142-0615(03)00063-2
  10. R. E. Brown, Electric power distribution reliability, Marcel Dekker, 2003
  11. IEEE trial-use guide for electric power distribution reliability indices, IEEE Std. 1366, 1998
  12. S.-Y. Yun and J.-C. Kim, 'Reliability evaluation of power distribution systems considering the momentary interruptions-application of Monte Carlo method,' Trans. on KIEE, vol.52A, no.1, pp.9-16, Jan. 2003
  13. Method to consider customer interruption costs in power system analysis, CIGRE Task Force 38.06.01, August 2001
  14. Present state of distribution system supplying reliability, KEPCO, 1995
  15. A study on the optimal load management of distribution transformer(TR), KEPRI, Feb. 2003