Fault current limiter using transformer and modular device of YBCO coated conductor

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Data

2013-04-08

Autores

Baldan, Carlos A. [UNESP]
Lamas, Jerika S.
Bernardes, André A.
Shigue, Carlos Y.
Ruppert, Ernesto

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Resumo

In this work, we report on the evaluation of a superconducting fault current limiter (SFCL). It is consisted of a modular superconducting device combined with a short-circuited transformer with a primary copper winding connected in series to the power line and the secondary side short-circuited by the superconducting device. The basic idea is adding a magnetic component to contribute to the current limitation by the impedance reflected to the line after transition of the superconducting device. The evaluation tests were performed with a prospective current up to 2 kA, with the short-circuited transformer of 2.5 kVA, 220 V/660 V connected to a test facility of 100 kVA power capacity. The resistive SFCL using a modular superconducting device was tested without degradation for a prospective fault current of 1.8 kA, achieving the limiting factor 2.78; the voltage achieved 282 V corresponding to an electric field of 11 V/m. The test performed with the combined SFCL (xsuperconducting device + transformer) using series and toroidal transformers showed current limiting factor of 3.1 and 2 times, respectively. The test results of the combined SFCL with short-circuited transformer showed undesirable influence of the transformer impedance, resulting in reduction of the fault current level. © 2002-2011 IEEE.

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Current limiting ratio, step up transformer, superconducting fault current limiter, YBCO coated conductor, Current limitation, Current limiting, Magnetic components, Step up transformers, Superconducting faultcurrent limiters (SFCL), Toroidal transformers, Transformer impedances, YBCO coated conductors, Critical current density (superconductivity), Electric fault currents, Electric fields, Electric transformer testing, Superconducting devices, Superconducting electric lines, Yttrium barium copper oxides, Superconducting fault current limiters

Como citar

IEEE Transactions on Applied Superconductivity, v. 23, n. 3, 2013.