An Effective Priority Method Using Generator's Discrete Sensitivity Value for Large-scale Preventive Maintenance Scheduling

발전기 이산 민감도를 이용한 효율적인 우선순위법의 대규모 예방정비계획 문제에의 적용 연구

  • 박종배 (안양대 전기전자공학과) ;
  • 정만호 (한국전력공사 남서울전력관리처)
  • Published : 1999.03.01

Abstract

This paper presents a new approach for large-scale generator maintenance scheduling optimizations. The generator preventive maintenance scheduling problems are typical discrete dynamic n-dimensional vector optimization ones with several inequality constraints. The considered objective function to be minimized a subset of{{{{ { R}^{n } }}}} space is the variance (i.g., second-order momentum) of operating reserve margin to levelize risk or reliability during a year. By its nature of the objective function, the optimal solution can only be obtained by enumerating all combinatorial states of each variable, a task which leads to computational explosion in real-world maintenance scheduling problems. This paper proposes a new priority search mechanism based on each generator's discrete sensitivity value which was analytically developed in this study. Unlike the conventional capacity-based priority search, it can prevent the local optimal trap to some extents since it changes dynamically the search tree in each iteration. The proposed method have been applied to two test systems (i.g., one is a sample system with 10 generators and the other is a real-world lage scale power system with 280 generators), and the results anre compared with those of the conventional capacith-based search method and combinatorial optimization method to show the efficiency and effectiveness of the algorithm.

Keywords

References

  1. 한국전력통계 한국전력공사
  2. Mordern Power System Planning X. Wang;J. R. McDonald
  3. Power System Planning R. L. Sullivan
  4. IEEE Trans. on PAS v.100 no.2 Maintenance scheduling under uncertainty J. P. Stremel;R. T. Jenkins
  5. IEEE Trans. on Power Systems v.10 no.4 A systems approach to least-cost maintenance scheduling for an interconnected power system D. Chattopadhyay;K. Bhattacharya;J. Parikh
  6. International Journal of Electric Power and Energy Systems v.16 no.4 Multiobjective programming in power system optimization: new approach to generator maintenance scheduling B. Kralj;N. Rajakovic
  7. IEEE Trans. on PAS v.91 no.1 A technique for the automatic scheduling of the maintenance of generating facilities W. R. Christiaanse;A. H. Palmer
  8. Least-Cost Electric Utility Planning Harry G. Stoll
  9. 電學論 B v.114 no.4 Simulation Evolution法 を用ぃた大規模 補修計劃 手法の 開發 須藤剛志;鈴木浩
  10. International Conference on Electrical Engineering A windows based decision-making support software for yearly preventive maintenance scheduling Y. M. Park;J. B. Park;J. R. Won;M. H. Jhong;J. H. Kim;J. B. Choo;D. H. Jeon
  11. IEEE Trans. on PAS v.91 no.5 Adjusting maintenance schedules to levelize risk L. L. Garver
  12. IEEE Trans. on Power Systems v.4 no.2 An interactive package for risk evaluation and maintenance scheduling G. C. Contaxis;S. D. Kavatza;C. D. Vournas
  13. 전기학회논문집 v.44 no.7 분지한정법을 이용한 발전계통의 보수계획수립에 관한 연구 정정원
  14. IEEE Trans. on PAS v.100 no.3 Maintenace scheduling for generation system planning J. P. Stremel
  15. Introduction to Optimization Techniques: Fundamentals and Applications of Nonlinear Programming Masanao Aoki
  16. Power Generation, Operation, and Control Allen J. Wood;Bruce F. Wollenberg
  17. IEEE Trans. on PAS v.91 no.1 A technique for the automated scheduling of the maintenance of generating facilities W. R. Christiaanse;A. H. Palmer