Fabrication of inner secondary winding of high-TC superconducting traction transformer for railway rolling stock

H. Kamijo; H. Hata; H. Fujimoto; K. Ikeda; T. Herai; K. Sakaki; H. Yamada; Y. Sanuki; S. Yoshida; Y. Kamioka; M. Iwakuma; K. Funaki

doi:10.1109/TASC.2005.849318

Fabrication of inner secondary winding of high-T_C superconducting traction transformer for railway rolling stock

H. Kamijo, H. Hata, H. Fujimoto, K. Ikeda, T. Herai, K. Sakaki, H. Yamada, Y. Sanuki, S. Yoshida, Y. Kamioka, M. Iwakuma, K. Funaki

Applied Energy Engineering

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

We studied the possible application of high-T_C superconducting traction transformer to railway rolling stock, and designed an iron core type two-leg 4 MVA superconducting traction transformer for Shinkansen. This traction transformer has a primary winding, four secondary windings and a tertiary winding. The four secondary windings are independent of each other. Two secondary windings are arranged around each leg of the iron core and placed inside and outside the primary and tertiary windings. In this study, we fabricated a high-T_C superconducting coil whose form and dimension are the same as those of the inner secondary winding. This coil can be used as the inner secondary winding of the experimental high T_C superconducting traction transformer that will be fabricated in the future. The inner secondary winding has 96 turns and a layer with eight parallel Bi2223 superconducting tapes. Transposition among the superconducting tapes is performed 15 times every six turns. We measured the voltage-current and AC loss characteristics when it was cooled in saturated and sub-cooled liquid nitrogen.

Original language	English
Pages (from-to)	1875-1878
Number of pages	4
Journal	IEEE Transactions on Applied Superconductivity
Volume	15
Issue number	2 PART II
DOIs	https://doi.org/10.1109/TASC.2005.849318
Publication status	Published - Jun 2005

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1109/TASC.2005.849318

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Kamijo, H., Hata, H., Fujimoto, H., Ikeda, K., Herai, T., Sakaki, K., Yamada, H., Sanuki, Y., Yoshida, S., Kamioka, Y., Iwakuma, M., & Funaki, K. (2005). Fabrication of inner secondary winding of high-T_C superconducting traction transformer for railway rolling stock. IEEE Transactions on Applied Superconductivity, 15(2 PART II), 1875-1878. https://doi.org/10.1109/TASC.2005.849318

Kamijo, H, Hata, H, Fujimoto, H, Ikeda, K, Herai, T, Sakaki, K, Yamada, H, Sanuki, Y, Yoshida, S, Kamioka, Y, Iwakuma, M & Funaki, K 2005, 'Fabrication of inner secondary winding of high-T_C superconducting traction transformer for railway rolling stock', IEEE Transactions on Applied Superconductivity, vol. 15, no. 2 PART II, pp. 1875-1878. https://doi.org/10.1109/TASC.2005.849318

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abstract = "We studied the possible application of high-TC superconducting traction transformer to railway rolling stock, and designed an iron core type two-leg 4 MVA superconducting traction transformer for Shinkansen. This traction transformer has a primary winding, four secondary windings and a tertiary winding. The four secondary windings are independent of each other. Two secondary windings are arranged around each leg of the iron core and placed inside and outside the primary and tertiary windings. In this study, we fabricated a high-TC superconducting coil whose form and dimension are the same as those of the inner secondary winding. This coil can be used as the inner secondary winding of the experimental high TC superconducting traction transformer that will be fabricated in the future. The inner secondary winding has 96 turns and a layer with eight parallel Bi2223 superconducting tapes. Transposition among the superconducting tapes is performed 15 times every six turns. We measured the voltage-current and AC loss characteristics when it was cooled in saturated and sub-cooled liquid nitrogen.",

author = "H. Kamijo and H. Hata and H. Fujimoto and K. Ikeda and T. Herai and K. Sakaki and H. Yamada and Y. Sanuki and S. Yoshida and Y. Kamioka and M. Iwakuma and K. Funaki",

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AU - Kamijo, H.

AU - Hata, H.

AU - Fujimoto, H.

AU - Ikeda, K.

AU - Herai, T.

AU - Sakaki, K.

AU - Yamada, H.

AU - Sanuki, Y.

AU - Yoshida, S.

AU - Kamioka, Y.

AU - Iwakuma, M.

AU - Funaki, K.

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N2 - We studied the possible application of high-TC superconducting traction transformer to railway rolling stock, and designed an iron core type two-leg 4 MVA superconducting traction transformer for Shinkansen. This traction transformer has a primary winding, four secondary windings and a tertiary winding. The four secondary windings are independent of each other. Two secondary windings are arranged around each leg of the iron core and placed inside and outside the primary and tertiary windings. In this study, we fabricated a high-TC superconducting coil whose form and dimension are the same as those of the inner secondary winding. This coil can be used as the inner secondary winding of the experimental high TC superconducting traction transformer that will be fabricated in the future. The inner secondary winding has 96 turns and a layer with eight parallel Bi2223 superconducting tapes. Transposition among the superconducting tapes is performed 15 times every six turns. We measured the voltage-current and AC loss characteristics when it was cooled in saturated and sub-cooled liquid nitrogen.

AB - We studied the possible application of high-TC superconducting traction transformer to railway rolling stock, and designed an iron core type two-leg 4 MVA superconducting traction transformer for Shinkansen. This traction transformer has a primary winding, four secondary windings and a tertiary winding. The four secondary windings are independent of each other. Two secondary windings are arranged around each leg of the iron core and placed inside and outside the primary and tertiary windings. In this study, we fabricated a high-TC superconducting coil whose form and dimension are the same as those of the inner secondary winding. This coil can be used as the inner secondary winding of the experimental high TC superconducting traction transformer that will be fabricated in the future. The inner secondary winding has 96 turns and a layer with eight parallel Bi2223 superconducting tapes. Transposition among the superconducting tapes is performed 15 times every six turns. We measured the voltage-current and AC loss characteristics when it was cooled in saturated and sub-cooled liquid nitrogen.

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Fabrication of inner secondary winding of high-T_C superconducting traction transformer for railway rolling stock

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