Performance of a 10-kJ SMES model cooled by liquid hydrogen thermo-siphon flow for ASPCS study

Y. Makida; T. Shintomi; T. Hamajima; N. Ota; M. Katsura; K. Ando; T. Takao; M. Tsuda; D. Miyagi; H. Tsujigami; S. Fujikawa; J. Hirose; K. Iwaki; T. Komagome

doi:10.1088/1757-899X/101/1/012028

Performance of a 10-kJ SMES model cooled by liquid hydrogen thermo-siphon flow for ASPCS study

Y. Makida, T. Shintomi, T. Hamajima, N. Ota, M. Katsura, K. Ando, T. Takao, M. Tsuda, D. Miyagi, H. Tsujigami, S. Fujikawa, J. Hirose, K. Iwaki, T. Komagome

工学研究科・電気エネルギーシステム専攻

研究成果: ジャーナルへの寄稿 › 会議記事 › 査読

5 被引用数 (Scopus)

抄録

We propose a new electrical power storage and stabilization system, called an Advanced Superconducting Power Conditioning System (ASPCS), which consists of superconducting magnetic energy storage (SMES) and hydrogen energy storage, converged on a liquid hydrogen station for fuel cell vehicles. A small 10- kJ SMES system, in which a BSCCO coil cooled by liquid hydrogen was installed, was developed to create an experimental model of an ASPCS. The SMES coil is conductively cooled by liquid hydrogen flow through a thermo-siphon line under a liquid hydrogen buffer tank. After fabrication of the system, cool- down tests were carried out using liquid hydrogen. The SMES coil was successfully charged up to a nominal current of 200 A. An eddy current loss, which was mainly induced in pure aluminum plates pasted onto each pancake coils for conduction cooling, was also measured.

本文言語	英語
論文番号	012028
ジャーナル	IOP Conference Series: Materials Science and Engineering
巻	101
号	1
DOI	https://doi.org/10.1088/1757-899X/101/1/012028
出版ステータス	出版済み - 2015 12月 18
イベント	2015 Joint Cryogenic Engineering and International Cryogenic Materials Conferences, CEC/ICMC 2015 - Tucson, 米国継続期間: 2015 6月 28 → 2015 7月 2

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10.1088/1757-899X/101/1/012028

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Makida, Y., Shintomi, T., Hamajima, T., Ota, N., Katsura, M., Ando, K., Takao, T., Tsuda, M., Miyagi, D., Tsujigami, H., Fujikawa, S., Hirose, J., Iwaki, K., & Komagome, T. (2015). Performance of a 10-kJ SMES model cooled by liquid hydrogen thermo-siphon flow for ASPCS study. IOP Conference Series: Materials Science and Engineering, 101(1), 記事 012028. https://doi.org/10.1088/1757-899X/101/1/012028

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title = "Performance of a 10-kJ SMES model cooled by liquid hydrogen thermo-siphon flow for ASPCS study",

abstract = "We propose a new electrical power storage and stabilization system, called an Advanced Superconducting Power Conditioning System (ASPCS), which consists of superconducting magnetic energy storage (SMES) and hydrogen energy storage, converged on a liquid hydrogen station for fuel cell vehicles. A small 10- kJ SMES system, in which a BSCCO coil cooled by liquid hydrogen was installed, was developed to create an experimental model of an ASPCS. The SMES coil is conductively cooled by liquid hydrogen flow through a thermo-siphon line under a liquid hydrogen buffer tank. After fabrication of the system, cool- down tests were carried out using liquid hydrogen. The SMES coil was successfully charged up to a nominal current of 200 A. An eddy current loss, which was mainly induced in pure aluminum plates pasted onto each pancake coils for conduction cooling, was also measured.",

author = "Y. Makida and T. Shintomi and T. Hamajima and N. Ota and M. Katsura and K. Ando and T. Takao and M. Tsuda and D. Miyagi and H. Tsujigami and S. Fujikawa and J. Hirose and K. Iwaki and T. Komagome",

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Makida, Y, Shintomi, T, Hamajima, T, Ota, N, Katsura, M, Ando, K, Takao, T, Tsuda, M, Miyagi, D, Tsujigami, H, Fujikawa, S, Hirose, J, Iwaki, K & Komagome, T 2015, 'Performance of a 10-kJ SMES model cooled by liquid hydrogen thermo-siphon flow for ASPCS study', IOP Conference Series: Materials Science and Engineering, vol. 101, no. 1, 012028. https://doi.org/10.1088/1757-899X/101/1/012028

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T1 - Performance of a 10-kJ SMES model cooled by liquid hydrogen thermo-siphon flow for ASPCS study

AU - Makida, Y.

AU - Shintomi, T.

AU - Hamajima, T.

AU - Ota, N.

AU - Katsura, M.

AU - Ando, K.

AU - Takao, T.

AU - Tsuda, M.

AU - Miyagi, D.

AU - Tsujigami, H.

AU - Fujikawa, S.

AU - Hirose, J.

AU - Iwaki, K.

AU - Komagome, T.

PY - 2015/12/18

Y1 - 2015/12/18

N2 - We propose a new electrical power storage and stabilization system, called an Advanced Superconducting Power Conditioning System (ASPCS), which consists of superconducting magnetic energy storage (SMES) and hydrogen energy storage, converged on a liquid hydrogen station for fuel cell vehicles. A small 10- kJ SMES system, in which a BSCCO coil cooled by liquid hydrogen was installed, was developed to create an experimental model of an ASPCS. The SMES coil is conductively cooled by liquid hydrogen flow through a thermo-siphon line under a liquid hydrogen buffer tank. After fabrication of the system, cool- down tests were carried out using liquid hydrogen. The SMES coil was successfully charged up to a nominal current of 200 A. An eddy current loss, which was mainly induced in pure aluminum plates pasted onto each pancake coils for conduction cooling, was also measured.

AB - We propose a new electrical power storage and stabilization system, called an Advanced Superconducting Power Conditioning System (ASPCS), which consists of superconducting magnetic energy storage (SMES) and hydrogen energy storage, converged on a liquid hydrogen station for fuel cell vehicles. A small 10- kJ SMES system, in which a BSCCO coil cooled by liquid hydrogen was installed, was developed to create an experimental model of an ASPCS. The SMES coil is conductively cooled by liquid hydrogen flow through a thermo-siphon line under a liquid hydrogen buffer tank. After fabrication of the system, cool- down tests were carried out using liquid hydrogen. The SMES coil was successfully charged up to a nominal current of 200 A. An eddy current loss, which was mainly induced in pure aluminum plates pasted onto each pancake coils for conduction cooling, was also measured.

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JO - IOP Conference Series: Materials Science and Engineering

JF - IOP Conference Series: Materials Science and Engineering

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T2 - 2015 Joint Cryogenic Engineering and International Cryogenic Materials Conferences, CEC/ICMC 2015

Y2 - 28 June 2015 through 2 July 2015

ER -

Performance of a 10-kJ SMES model cooled by liquid hydrogen thermo-siphon flow for ASPCS study

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