Hifumi Toriyama scite author profile

Hifumi Toriyama

5Publications

4Citation Statements Received

27Citation Statements Given

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Sophia University

Publications

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Quench protection system for an HTS coil that uses Cu tape co-wound with an HTS tape

Toriyama

Nomoto

Ichikawa

et al. 2019

Supercond. Sci. Technol.

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A quench protection system for a high-temperature superconducting (HTS) coil using Cu tape co-wound with an HTS tape was studied by numerical analysis using a thermal model of a coil winding pack. In normal operation, the voltage across the resistive zone Vs in the HTS coil was monitored by measuring the voltage difference between the HTS coil and the co-wound Cu coil. When Vs exceeded the quench detection voltage, the HTS coil was disconnected from the power supply and the energy stored in the HTS coil was dumped into a dump resistor. At the same time, the terminals of the co-wound coil were connected to another resistor, and some of the current in the HTS coil was quickly transferred to the co-wound Cu tape coil due to the tight magnetic coupling of both coils. This is expected to decrease the hot-spot temperature due to the quick decrease of HTS coil current and to protect the coil from damage caused by overheating at the hot-spot. The analysis investigated the effectiveness of this method.

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Study on optimal thickness of copper layer of REBCO-coated wire for quench protection

Kojima

Fuchida

Toriyama

et al. 2019

IOP Conf. Ser.: Mater. Sci. Eng.

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Reduction of Hot-Spot Temperature of REBCO Coil by Use of Stabilizing Cu Strips on REBCO-Coated Wire

Fuchida¹,

Nomoto²,

Kojima³

et al. 2019

IEEE Trans. Appl. Supercond.

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Study on conditions to reuse quenched HTS coil

Toriyama

Nomoto

Ichikawa

et al. 2020

J. Phys.: Conf. Ser.

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An HTS coil quenches despite of the high quench margin. Main origins of unexpected quench of HTS coils are non-reversible local defects, and training effects as in LTS coils are not observed in HTS coils. Therefore, when an HTS coil is quenched before the required coil performance is met, the coil cannot be reused unless the coil is safely protected from quench damage and its operating conditions are readjusted. This paper studies on the conditions to reuse the coil which experienced a quench and is not damaged by the quench to meet the required performance. The study is conducted based on the temperature and current dependences of the coil stability measures of the maximum allowable defect (MAD) and minimum propagating zone (MPZ).

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Experimental Study on Quench Protection of HTS Magnet Composed of Multiple Pancake-Coils by Use of Auxiliary Resistive Shunt Loop Method

Ichikawa

Nomoto

Toriyama

et al. 2020

IEEE Trans. Appl. Supercond.

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Hifumi Toriyama

Quench protection system for an HTS coil that uses Cu tape co-wound with an HTS tape

Study on optimal thickness of copper layer of REBCO-coated wire for quench protection

Reduction of Hot-Spot Temperature of REBCO Coil by Use of Stabilizing Cu Strips on REBCO-Coated Wire

Study on conditions to reuse quenched HTS coil

Experimental Study on Quench Protection of HTS Magnet Composed of Multiple Pancake-Coils by Use of Auxiliary Resistive Shunt Loop Method

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