1998
DOI: 10.1016/s0011-2275(97)00134-3
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Development of a 500 kVA-class oxide-superconducting power transformer operated at liquid-nitrogen temperature

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Cited by 77 publications
(28 citation statements)
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“…The parameter is determined by the properties of the workpiece, so the remaining option is to lower . Using HTS in the coil windings emerges as an interesting approach, especially viewed in the light of the construction of a 500 kVA HTS power transformer operating with an overall efficiency of 99.3% (cooling penalty factor included) [4]. Loss reduction is considered a major driving force for developing HTS transformers, but as indicated above, the potential for efficiency improvements is far greater in some induction heaters.…”
Section: Induction Heating Of Extrusion Billetsmentioning
confidence: 99%
“…The parameter is determined by the properties of the workpiece, so the remaining option is to lower . Using HTS in the coil windings emerges as an interesting approach, especially viewed in the light of the construction of a 500 kVA HTS power transformer operating with an overall efficiency of 99.3% (cooling penalty factor included) [4]. Loss reduction is considered a major driving force for developing HTS transformers, but as indicated above, the potential for efficiency improvements is far greater in some induction heaters.…”
Section: Induction Heating Of Extrusion Billetsmentioning
confidence: 99%
“…Also, HTS devices are important components in future smart grids, and more and more attention is internationally paid to them. At present, many HTS apparatuses, such as cable, transformer, fault current limiter (FCL), superconducting magnetic storage (SMES), are demonstrated in live-grid [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15], among which the HTS cable has operated for long term in power grid [16].…”
Section: Introductionmentioning
confidence: 99%
“…In recent years, practical HTS tapes have been realized commercially and made great progress in electrical power application [1]. Applications such as HTS cables [2,3], transformers [4][5][6], fault current limiters (FCL) [7,8], generators and motors [9], and superconducting magnetic energy systems (SMESs) [10], etc. were successively tested in a live grid.…”
Section: Introductionmentioning
confidence: 99%
“…The transformer operated at 77 K, with capacity 500 kVA, voltage 6.6 kV/3.3 kV and current 76 A/152 A. Moreover, a capacity of 800 kVA was achieved when operating in 66 K temperature [4]. ABB of Switzerland and AMSC of America first developed a three-phase distribution HTS transformer with capacity 630 kVA, voltage 18.72 kV/ 0.42 kV and current 11.2 A/866 A, which had successfully operated in a live grid of Geneva for one year in 1997 [6].…”
Section: Introductionmentioning
confidence: 99%