<P>As high temperature superconducting (HTS) power cables have some merits over conventional cables, several demonstration projects on the HTS cable system are presently under way around the world. Korea Electric Power Corporation (KEPCO) also i...
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https://www.riss.kr/link?id=A107527638
Sohn, S.H. ; Lim, J.H. ; Yim, S.W. ; Hyun, O.B. ; Kim, H.R. ; Yatsuka, K. ; Isojima, S. ; Masuda, T. ; Watanabe, M. ; Ryoo, H.S. ; Yang, H.S. ; Kim, D.L. ; Hwang, S.D.
2007
-
SCI,SCIE,SCOPUS
학술저널
2043-2046(4쪽)
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
<P>As high temperature superconducting (HTS) power cables have some merits over conventional cables, several demonstration projects on the HTS cable system are presently under way around the world. Korea Electric Power Corporation (KEPCO) also i...
<P>As high temperature superconducting (HTS) power cables have some merits over conventional cables, several demonstration projects on the HTS cable system are presently under way around the world. Korea Electric Power Corporation (KEPCO) also initiated an HTS cable project in 2002 with the Korean government's support. A three phase 100 m HTS cable system with a capacity of 50 MVA has been installed at Gochang test yard, located in Chonnbuk province, Korea. The HTS cable system is composed of a 100 m-long cable, two terminations and a cooling system. The rated current is 1,250 A<SUB>rms</SUB> and the rated voltage is 22.9 kV considering compatibility with the conventional power distribution system in Korea. Main purposes of this project are to verify the performance of an HTS cable system and to evaluate the potential of the HTS cable system from the viewpoint of power utilities. The real grid application of the HTS cable system requires the demonstration of system reliability, accumulated operation experiences, and it has to meet the practical needs of the utilities. In such a meaning, this project provides various challenges for KEPCO, and the feedback will be delivered to cable manufacturers. This user initiative test will facilitate the introduction of HTS cable systems into a real grid network. The installation process of the HTS cable system and some results of the preliminary test were presented in this paper.</P>
64-Channel Second-Order Planar Gradiometer System for Magnetocardiograms
Current-Lead Design for Cryocooled HTS Fault Current Limiters
AC Loss Measurement of Bifilarly Wound Magnet Using Coated Conductor
Effects of Hybrid Multi-Stacking of BSCCO Wires and YBCO Wires on AC Loss