DocumentCode
1481129
Title
Design performance of a superconducting power link
Author
Paasi, Jaakko ; Lehtonen, Jorma ; Verhaege, Thierry ; Herrmann, Peter F.
Author_Institution
Lab. of Electromagnetics, Tampere Univ., Finland
Volume
11
Issue
1
fYear
2001
fDate
3/1/2001 12:00:00 AM
Firstpage
1928
Lastpage
1931
Abstract
Superconducting power links (SUPERPOLI) will offer low-loss power transmission and fault current limitation in a single device. In the European SUPERPOLI project, a long term goal is to build a 200 m long, 20 kVrms 28 kArms 3-phase superconducting power link which will be refrigerated by subcooled liquid nitrogen. The SUPERPOLI will have a compact coaxial multitube structure which significantly reduces the AC losses. As a step towards this GVA-class application, a 2 m long, 20 kV, 2 kA/5 kA, one-phase functional model is under construction. The conductor variants considered are Bi-2212 bulk conductor and Y-123 coated film conductor. They present very different behaviors in normal operation and during the limiting phase: Bi-2212 bulk conductor has higher AC losses and allows short transients or moderate overcurrents without quenching, while Y-123 film has low AC losses and immediate response for overcritical currents
Keywords
cooling; high-temperature superconductors; losses; power transmission; superconducting cables; 2 kA; 20 kV; 20 m; 28 kA; 5 kA; AC losses; Bi-2212 bulk conductor; Bi2Sr2CaCu2O8; Y-123 coated film conductor; compact coaxial multitube structure; design performance; fault current limitation; limiting phase; low-loss power transmission; moderate overcurrents; normal operation; overcritical currents response; short transients; subcooled liquid nitrogen refrigeration; superconducting power link; Conductive films; Fault currents; Nitrogen; Power distribution; Power system transients; Power transmission; Prototypes; Superconducting films; Superconducting transmission lines; Superconductivity;
fLanguage
English
Journal_Title
Applied Superconductivity, IEEE Transactions on
Publisher
ieee
ISSN
1051-8223
Type
jour
DOI
10.1109/77.920228
Filename
920228
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