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Design Methodology of the Bus Configuration and Protection Coordination Basic Logics of Power Substation Using EMTP-RV

EMTP-RV를 이용한 변전소 모선 방식과 보호협조 기초 논리 설계 방법론에 대한 연구

  • Ko, Yun-Seok (Dept. of Electronic Engineering, Namseoul University)
  • Received : 2019.08.22
  • Accepted : 2019.12.15
  • Published : 2019.12.31

Abstract

Since substations are structurally complex due to the concentration of protection coordination facilities with substation facilities for long distance power transmission, it is difficult to design a protection coordination system to minimize the spreading effect of the fault when a fault occurs on transmission line or distribution line. Therefore, in this paper, the bus configuration and the basic logic of protection coordination that have a major influence on the reliability of substation power supply were analyzed, and the substation protection coordination logic to detect internal and external faults was developed based on EMTP-RV. As the basic logic of substation protection coordination, the percent differential protection relay logic for substation internal fault detection and the overload protection relay logic for inference of external failure were modeled. Finally, the 154kV substation including the protection coordination logic was modeled using EMTP-RV, and the effectiveness of the protection coordination design methodology was confirmed through the several fault simulation cases based on EMTP-RV.

변전소는 변전설비들이 제한된 장소에 집중되어 구조적으로 복잡하기 때문에 송전선로나 배전선로 상에서 고장발생 시 고장파급효과를 최소화하기 위한 보호협조 시스템을 설계하기가 쉽지 않다. 본 연구에서는 변전소 전력공급 신뢰성에 핵심적인 영향을 미치는 모선 방식과 보호협조 기초논리를 분석하였으며 EMTP-RV 기반으로 변전소 내부 및 외부 고장을 정확하게 검출하기 위한 변전소 보호협조 논리를 모델링하였다. 변전소 보호협조 기본 논리로서 변전소 내부 고장 검출을 위한 비율차동 보호계전 논리와 외부고장을 추론하기 위한 과부하 보호계전 논리가 모델링되었다. 끝으로, EMTP-RV를 이용하여 개발된 보호협조 논리 모델링을 기반으로 154kV 변전소를 모델링한 후, 수개의 고장모의를 통해 EMTP-RV 모델링 결과의 유효성을 확인하였다.

Keywords

References

  1. IEEE, "IEEE Guide for Protective Relay Applications to Transmission Line," IEEE Standard c.37.113, June 2016.
  2. A. Shobole1, M. Baysal, M. Wadi, and M. R. Tur, "Protection Coordination in Electrical Substation Part-2 Unit Protections (Differential and Distance Protection) -Case Study of Siddik Kardesler Substation (SKS)," Gazi University Journal of Science, vol. 30, no. 4, 2017, pp 163-178.
  3. C. Martin, "Bus Protection Considerations for Various Bus Types," 69th Annual Georgia Tech Protective Relaying Conference, Atlanta, Georgia, 2015.
  4. D. Kamlesh and S. Vishnubhai, "66/11kV Substation Design," Degree of Bachelor of Engineering in Electrical Engineering at Gujarat Technological University, Nigam Nagar, India, 2016.
  5. T. Smith, "Bus Protection Fundamentals," 2017 Texas A&M Protective Relay Conference, Texas A&M University, College Station, Texas, USA, Apr. 2017.
  6. V. Lackovic, High Voltage Busbar Protection", Course No: E05-012, Continuing Education and Development, Inc., New York, USA.
  7. J. G. Andrichak and J. Cardenas, "Bus Differential Protection," 22nd Annual Western Protective Relay Conference, Spokane, Washington, USA, Oct. 1995.
  8. GE, "Bus Protection, "GE Grid Solutions," GE Digital Energy Protection and Control, Boston, Massachusetts, USA, pp. 252-255.
  9. Y. Kim, M. Kim, G. Park, and J. Kim, "Design of a Current Transducer and Over-Current Fault Detection Circuit for Power Strip Applications," J. of the Korea Institute of Electronic Communication Sciences, vol. 10, no. 8, Aug. 2015, pp. 921-926. https://doi.org/10.13067/JKIECS.2015.10.8.921
  10. H. Song, K. Park, and E. Kim, "Design and Implementation of Stand-alone Microgrid Monitoring System for Green Energy Independence Island," J. of the Korea Institute of Electronic Communication Sciences, vol. 10, no. 4, Oct. 2015, pp. 527-532. https://doi.org/10.13067/JKIECS.2015.10.4.527
  11. J. Joo and J. Oh, "Efficient Grid-Independent ESS Control System by Prediction of Energy Production Consumption," J. of the Korea Institute of Electronic Communication Sciences, vol. 14. no. 1, Feb. 2019, pp. 155-160. https://doi.org/10.13067/JKIECS.2019.14.1.155
  12. J. Park, "AMI System Using Smart Electricity Meter Embedded with Home Concentrate Unit," J. of the Korea Institute of Electronic Communication Sciences, vol. 14, no. 3, June 2019, pp. 537-546. https://doi.org/10.13067/JKIECS.2019.14.3.537