Evaluation of magnetic fields due to the ferromagnetic vacuum vessel and their influence on plasma discharge in tokamak devices

T. Nakayama; M. Abe; T. Tadokoro; M. Otsuka

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Evaluation of magnetic fields due to the ferromagnetic vacuum vessel and their influence on plasma discharge in tokamak devices

机译：评估铁磁真空容器产生的磁场及其对托卡马克装置中等离子体放电的影响

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We studied characteristics of the magnetic fields due to a ferromagnetic vacuum vessel (F-VV) experimentally and computationally to clarify whether plasma discharge is possible with the F-VV in tokamak devices. We made three kinds of evaluations using the Hitachi tokamak HT-2. One was a discharge test with error field coil. The second was a numerical analysis of the magnetic field induced by a ferritic first wall. The third was a discharge test with the ferritic first wall. Consequently, we confirmed that a normal plasma discharge could be obtained with a ferritic first wall in the HT-2. The strength of the localized magnetic field induced by the F-VV in the plasma region was smaller in tokamak devices with the size of the JFT-2M and ITER than in the HT-2. Therefore, the F-VV should be applicable to tokamak devices.

机译：我们通过实验和计算研究了由铁磁真空容器（F-VV）产生的磁场的特性，以阐明在托卡马克装置中使用F-VV是否可以进行等离子体放电。我们使用日立托卡马克HT-2进行了三种评估。一种是带有误差磁场线圈的放电测试。第二个是对铁素体第一壁感应磁场的数值分析。第三个是铁素体第一壁的放电测试。因此，我们确认了使用HT-2中的铁素体第一壁可以获得正常的等离子体放电。在JFT-2M和ITER尺寸的托卡马克装置中，F-VV在等离子体区域中感应的局部磁场强度要比HT-2小。因此，F-VV应该适用于托卡马克设备。

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |1999年第272期|共5页
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T. Nakayama; M. Abe; T. Tadokoro; M. Otsuka;
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1. Evaluation of magnetic fields due to the ferromagnetic vacuum vessel and their influence on plasma discharge in tokamak devices [J] . T. Nakayama, M. Abe, T. Tadokoro, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 1999,第272期

机译：评估铁磁真空容器产生的磁场及其对托卡马克装置中等离子体放电的影响
2. Experiments of Tokamak Discharge and Simulation of Magnetic Field Configuration in Tokamak-Helical Hybrid Device TOKASTAR-2 [J] . Makoto HASEGAWA, Kozo YAMAZAKI, Hideki ARIMOTO, Plasma and Fusion Research . 2012,第3期

机译：托卡马克-螺旋混合动力装置TOKASTAR-2的托卡马克放电实验和磁场配置模拟
3. Residual magnetic stray field in ITER building and field perturbation on the plasma due to ferromagnetic iron components outside the vessel [J] . M. Roccella, A. Marin, F. Lucca, Fusion Engineering and Design . 2009,第7a11期

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Evaluation of magnetic fields due to the ferromagnetic vacuum vessel and their influence on plasma discharge in tokamak devices

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