Fabrication and test of a 4 kJ Bi-2223 pulse coil for SMES

Hidemi Hayashi; Hironobu Kimura; Yasuhiro Hatabe; Katsuya Tsutsumi; Akira Tomioka; Takaaki Bohno; Shinichi Nose; Yujiro Yagi; Toshinori Ishii; Masataka Iwakuma; Kazuo Funaki

doi:10.1109/TASC.2003.812932

Fabrication and test of a 4 kJ Bi-2223 pulse coil for SMES

Hidemi Hayashi, Hironobu Kimura, Yasuhiro Hatabe, Katsuya Tsutsumi, Akira Tomioka, Takaaki Bohno, Shinichi Nose, Yujiro Yagi, Toshinori Ishii, Masataka Iwakuma, Kazuo Funaki

Applied Energy Engineering

Research output: Contribution to journal › Conference article › peer-review

7 Citations (Scopus)

Abstract

We designed and fabricated a 4 kJ conduction-cooled high-Tc superconducting (HTS) pulse coil. The coil is wound with an interlayer-transposed 6-strand parallel conductor which is composed of Bi-2223 silver alloy-sheathed multi-filamentary wires. We had developed a complete 3.6 MJ/1 MW low-Tc superconducting (LTS) SMES system for testing on a power line at Imajuku substation. Aiming at the feasible operation of SMES applying a HTS coil, we made a SMES system set-up in which HTS coils were serially connected to 3 LTS coils of the SMES. The SMES including the HTS coil was connected to Imajuku substation's power system, to made operational tests of compensation for load fluctuation at the 6 kV power line. The test results lead to the feasibility of the HTS SMES for practical use in future power systems.

Original language	English
Pages (from-to)	1867-1870
Number of pages	4
Journal	IEEE Transactions on Applied Superconductivity
Volume	13
Issue number	2 II
DOIs	https://doi.org/10.1109/TASC.2003.812932
Publication status	Published - Jun 1 2003
Event	2002 Applied Superconductivity Conference - Houston, TX, United States Duration: Aug 4 2002 → Aug 9 2002

All Science Journal Classification (ASJC) codes

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

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Fabrication and test of a 4 kJ Bi-2223 pulse coil for SMES. / Hayashi, Hidemi; Kimura, Hironobu; Hatabe, Yasuhiro; Tsutsumi, Katsuya; Tomioka, Akira; Bohno, Takaaki; Nose, Shinichi; Yagi, Yujiro; Ishii, Toshinori; Iwakuma, Masataka; Funaki, Kazuo.

In: IEEE Transactions on Applied Superconductivity, Vol. 13, No. 2 II, 01.06.2003, p. 1867-1870.

Research output: Contribution to journal › Conference article › peer-review

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abstract = "We designed and fabricated a 4 kJ conduction-cooled high-Tc superconducting (HTS) pulse coil. The coil is wound with an interlayer-transposed 6-strand parallel conductor which is composed of Bi-2223 silver alloy-sheathed multi-filamentary wires. We had developed a complete 3.6 MJ/1 MW low-Tc superconducting (LTS) SMES system for testing on a power line at Imajuku substation. Aiming at the feasible operation of SMES applying a HTS coil, we made a SMES system set-up in which HTS coils were serially connected to 3 LTS coils of the SMES. The SMES including the HTS coil was connected to Imajuku substation's power system, to made operational tests of compensation for load fluctuation at the 6 kV power line. The test results lead to the feasibility of the HTS SMES for practical use in future power systems.",

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AU - Hayashi, Hidemi

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AU - Hatabe, Yasuhiro

AU - Tsutsumi, Katsuya

AU - Tomioka, Akira

AU - Bohno, Takaaki

AU - Nose, Shinichi

AU - Yagi, Yujiro

AU - Ishii, Toshinori

AU - Iwakuma, Masataka

AU - Funaki, Kazuo

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N2 - We designed and fabricated a 4 kJ conduction-cooled high-Tc superconducting (HTS) pulse coil. The coil is wound with an interlayer-transposed 6-strand parallel conductor which is composed of Bi-2223 silver alloy-sheathed multi-filamentary wires. We had developed a complete 3.6 MJ/1 MW low-Tc superconducting (LTS) SMES system for testing on a power line at Imajuku substation. Aiming at the feasible operation of SMES applying a HTS coil, we made a SMES system set-up in which HTS coils were serially connected to 3 LTS coils of the SMES. The SMES including the HTS coil was connected to Imajuku substation's power system, to made operational tests of compensation for load fluctuation at the 6 kV power line. The test results lead to the feasibility of the HTS SMES for practical use in future power systems.

AB - We designed and fabricated a 4 kJ conduction-cooled high-Tc superconducting (HTS) pulse coil. The coil is wound with an interlayer-transposed 6-strand parallel conductor which is composed of Bi-2223 silver alloy-sheathed multi-filamentary wires. We had developed a complete 3.6 MJ/1 MW low-Tc superconducting (LTS) SMES system for testing on a power line at Imajuku substation. Aiming at the feasible operation of SMES applying a HTS coil, we made a SMES system set-up in which HTS coils were serially connected to 3 LTS coils of the SMES. The SMES including the HTS coil was connected to Imajuku substation's power system, to made operational tests of compensation for load fluctuation at the 6 kV power line. The test results lead to the feasibility of the HTS SMES for practical use in future power systems.

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