Superconducting fault current limiters

Events in the power utility industry, such as deregulation, demands for better power quality and reliability, the advent of high temperature superconductivity, and the push to use technology to realize greater profits, have renewed interest in fault current limiters (FCL). Superconducting FCLs will become very important as the deregulation environment takes hold and utilities seek more efficient and cost-effective methods to couple grids, improve power quality, and delay expensive upgrades. The working principle and progress of superconducting FCLs is discussed in this article.

[1]  Testing of the world's largest Bi-2223 high temperature superconducting coil , 2000, IEEE Transactions on Applied Superconductivity.

[2]  Jakob Rhyner,et al.  Test of 1.2 MVA high- superconducting fault current limiter , 1997 .

[3]  Wolfgang Schmidt,et al.  Resistive fault current limiters with YBCO films 100 kVA functional model , 1999, IEEE transactions on applied superconductivity.

[4]  Jakob Rhyner,et al.  1.2 MVA High-Tc Superconducting Fault Current Limiter , 1998 .

[5]  E. Leung,et al.  Surge protection for power grids , 1997 .

[6]  H. Boenig,et al.  Fault current limiter using a superconducting coil , 1982 .

[7]  P. Haldar,et al.  High temperature superconducting fault current limiter development , 1997, IEEE Transactions on Applied Superconductivity.

[8]  K. Tekletsadik,et al.  Development of a 7.5 MVA superconducting fault current limiter , 1999, IEEE Transactions on Applied Superconductivity.

[9]  P. Haldar,et al.  Design and development of a 15 kV, 20 kA HTS fault current limiter , 2000, IEEE Transactions on Applied Superconductivity.