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http://dx.doi.org/10.4313/JKEM.2006.19.11.1055

Development of a Real-time Simulation Method for the Utility Application of Superconducting power Devices (PART 1 : HIS Power Cable)  

Kim, Jae-Ho (창원대학교 전기공학과 전력 및 대체에너지 시스템연구실)
Park, Min-Won (창원대학교 전기공학과 전력 및 대체에너지 시스템연구실)
Park, Dae-Jin (창원대학교 전기공학과 전력 및 대체에너지 시스템연구실)
Kang, Jin-Ju (창원대학교 전기공학과 전력 및 대체에너지 시스템연구실)
Cho, Jeon-Wook (한국전기연구원 초전도응용 연구그룹)
Sim, Ki-Deok (한국전기연구원 초전도응용 연구그룹)
Yu, In-Keun (창원대학교 전기공학과 전력 및 대체에너지 시스템연구실)
Publication Information
Journal of the Korean Institute of Electrical and Electronic Material Engineers / v.19, no.11, 2006 , pp. 1055-1060 More about this Journal
Abstract
High temperature superconducting(HTS) power cable is expected to be used for power transmission lines supplying electric power for densely populated cities in the near future. Since HTS power cable is capable of the high current density delivery with low power loss, the cable size can be compact comparing with the conventional cable whose capacity is same. In this paper, the authors propose the real time simulation method which puts a teal HTS wire into the simulated 22.9 kV utility grid system using Real Time Digital Simulator (RTDS). For the simulation analysis, test sample of HTS wire was actually manufactured. And the transient phenomenon of the HTS wire was analyzed in the simulated utility power grid. This simulation method is the world first trial in order to obtain much better data for installation of HTS power device into utility network.
Keywords
Bi-2223 HTS wire; Real time digital simulator; RTDS;
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  • Reference
1 O. Tonnesen, S. Hansen, P. Jorgensen, K. Lornholt, S. D. Mikkelsen, J. Okholm, S. Salvin, J. J. Ostergaaard, and H. Miller, 'Power application for superconducting cables', IEEE Trans. Applied Superconductivity, Vol. 1, p. 1103, 1999
2 Forsyth. E. B and Williams. J. A., 'The Technical and : A Case study', Trans. on IEEE PAS-94, p. 161, 1975
3 Forsyth. E. B., 'The 60 Hz performance of superconducting', Trans. on IEEE PAS-103, No. 8, p. 182, 1984
4 S. Honjo and Y. Takahashi, 'Outline of verification tests', Cryogenic Eng. In Japan 36, p. 242, 2001
5 차귀수 외, '고온 초전도 변압기 개발', 고온초전도 변압기 개발에 관한 최종 보고서, 산업자원부, p. 167, 2001
6 M. W. Park, 'A nover real-time simulation technique of photovoltaic generation system using RTDS', IEEE Trans. on Energy Conversion, Vol. 19, No.1, 2004
7 M. W. Park, 'Real weather condition based simulation of stand-alone wind power generation system using RTDS', KIEE International Trans. on EMECS, Vol. 4-B, No. 3, p. 146, 2004
8 J. D. Lee, M. W. Park, and I.-K. Yu, 'A study on the modeling of superconducting fault limiters using EMTDC', IFAC Symposiun on Power Plants&Power Systems control, Vol. 1, p. 399, 2003
9 J. D. Lee, M. W. Park, and I.-K. Yu, 'Real time simulation scheme for stand-alone wind power generation systems', IFAC Symposiun on Power Plants&Power Systems control, Vol. 1, p. 278, 2003