Design and test of HTS coils for resistive fault current limiter

dc.creatorHomrich, Roberto Petry
dc.creatorRuppert Filho, Ernesto
dc.creatorPinatti, Daltro Garcia
dc.creatorBaldan, Carlos Alberto
dc.creatorShigue, Carlos Yujiro
dc.creatorFreitas, Rafael Cassiolato de
dc.date2011-01-28T05:59:07Z
dc.date2004
dc.identifier1051-8223
dc.identifierhttp://hdl.handle.net/10183/27575
dc.identifier000464053
dc.descriptionThis paper presents the design, manufacturing and test results of HTS coils for single-phase resistive current limiters using two different Bi-2223/Ag tapes. Two coils were separately wound on cylindrical G-10 tubes with helical path. One of the coil was wound in a bifilar conductor arrangement aiming at reducing the self-inductance. The maximum flux density is 40 mT on the HTS tape for both coils and the calculated inductance is 5.76µ H for the noninductively wound coil and 28.3µ H for the conventional one. The two coils were individually tested under DC and AC currents. The DC power loss was calculated from the measured voltage-current values product and the AC power loss was determined by the liquid nitrogen mass boil-off measurement. The acquired voltage AC waveforms were analyzed through the separation of distinct contributions due to magnetic flux and to a resistive component in-phase with the current. It was observed an inflection point common to the DC and AC power losses curves close to Ic attributed to the AC transition current.
dc.formatapplication/pdf
dc.languageeng
dc.relationIEEE transactions on applied superconductivity. New York, NY. vol. 14, no. 2 (June 2004), p. 863-866
dc.rightsOpen Access
dc.subjectFault current limiter
dc.subjectHTS applications
dc.subjectHTS coils
dc.subjectResistive current limiter
dc.subjectSupercondutores
dc.titleDesign and test of HTS coils for resistive fault current limiter
dc.typeArtigo de periódico
dc.typeEstrangeiro


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