A. Ninomiya scite author profile

The world's largest pulsed superconducting coil was successfully tested by charging up to 13 T and 46 kA with a stored energy of 640 MJ. The ITER central solenoid (CS) model coil and CS insert coil were developed and fabricated through an international collaboration, and their cooldown and charging tests were successfully carried out by international test and operation teams. In pulsed charging tests, where the original goal was 0.4 T/s up to 13 T, the CS model coil and the CS insert coil achieved ramp rates to 13 T of 0.6 T/s and 1.2 T/s, respectively. In addition, the CS insert coil was charged and discharged 10 003 times in the 13 T background field of the CS model coil and no degradation of the operational temperature margin directly coming from this cyclic operation was observed. These test results fulfilled all the goals of CS model coil development by confirming the validity of the engineering design and demonstrating that the ITER coils can now be constructed with confidence.

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Test of the ITER TF insert and central solenoid model coil

Martovetsky

Takayasu

Minervini

et al. 2003

IEEE Trans. Appl. Supercond.

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The Central Solenoid Model Coil (CSMC) was designed and built by ITER collaboration between the European Union, Japan, Russian Federation and the United States in 1993-2001. Three heavily instrumented insert coils have been also built for testing in the background field of the CSMC to cover a wide operational space. The TF Insert was designed and built by the Russian Federation to simulate the conductor performance under the ITER TF coil conditions. The TF Insert Coil was tested in the CSMC Test Facility at the Japan Atomic Energy Research Institute, Naka, Japan in September-October 2001. Some measurements were performed also on the CSMC to study effects of electromagnetic and cooldown cycles. The TF Insert coil was charged successfully, without training, in the background field of the CSMC to the design current of 46 kA at 13 T peak field. The TF Insert met or exceeded all design objectives, however some interesting results require thorough analyses. This paper presents the overview of main results of the testing-magnet critical parameters, joint performance, effect of cycles on performance, quench and some results of the post-test analysis.

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Studies on the Mechanism of the Toxic Action of Organic Halogen Compounds

Hirade

Ninomiya

1950

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Test of the NaAl insert and ITER central solenoid model coil

Okuno¹,

Martovetsky

Koizumi³

et al. 2003

IEEE Trans. Appl. Supercond.

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The Central Solenoid Model Coil (CSMC) was designed and built by an ITER collaboration in 1993-2001. Three heavily instrumented Inserts have been also built for testing in the background field of the CSMC. The Nb 3 Al Insert was designed and built by Japan to explore the feasibility of an alternative to Nb 3 Sn superconductor for fusion magnets. The Nb 3 Al Insert coil was tested in the CSMC Test Facility at the Japan Atomic Energy Research Institute, Naka, Japan in March-May 2002. It was the third Insert tested in this facility under this program. The Nb 3 Al Insert coil was charged successfully without training in the background field of the CSMC to the design current of 46 kA at 13 T peak field and later was successfully charged up to 60 kA in 12.5 T field. This paper presents the test results overview.

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A. Ninomiya

Test of the ITER central solenoid model coil and CS insert

Progress of the ITER central solenoid model coil programme

Test of the ITER TF insert and central solenoid model coil

Studies on the Mechanism of the Toxic Action of Organic Halogen Compounds

Test of the NaAl insert and ITER central solenoid model coil

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