ITER TF线圈组装技术的发展,线圈包与线圈盒集成

M. Nakamoto, Y. Kasai, T. Baba, K. Sakamoto, Tatsuya Shimizu, K. Saito, N. Koizumi, M. Nakahira, E. Fujiwara, M. Yamane, T. Minato, K. Kuno
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引用次数: 3

摘要

简介:ITER环形场线圈是一个d形超导磁体。一组18个TF线圈在ITER真空容器周围组装时形成甜甜圈形状。线圈的磁性可以用电流中心线(CCL)来表征。为发挥等离子体密封磁体的功能,对TF线圈的关键部分规定了φ2.6 mm圆柱公差的严格要求。在之前的研究中,已经开发了制造工具和工艺,并应用于绕组包(WP)和TF线圈箱(TFCC)组件的制造。在将WP集成到TFCC中,应控制WP的预定CCL并将其转移到TFCC的参考点。为了精确控制CCL的位置,必须控制WP和TFCC的变形。此外,即使在WP完全被TFCC覆盖之后,CCL位置的精确跟踪也需要一些技术来评估CCL位置。通过焊接试验和结构模拟分析,开发了相应的技术。将这些技术应用于TF线圈的生产,并成功地完成了两个TF线圈的生产。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of ITER TF Coil Assembly Technique, Integration of Winding Pack into Coil Case
Synopsis : The ITER Toroidal Field (TF) coil is a D-shaped superconducting magnet. A set of 18 TF coils forms a donut shape when assembled around the ITER vacuum vessel. The magnetic property of a coil is characterized by a current center line (CCL). To serve their function as plasma containment magnets, severe requirement of φ2.6 mm cylindrical tolerance is defined for the critical portion of the TF coils. In previous study, the manufacturing tooling and procedure have been developed and applied for manufacturing of Winding Packs (WP) and TF Coil Case (TFCC) subassemblies. In integration of a WP into a TFCC, predetermined CCL of the WP shall be controlled and transferred to reference points of the TFCC. For precise control of the CCL positions, deformations of the WP and the TFCC must be controlled. Also, the precise tracking of the CCL position required some techniques to evaluate the CCL positions even after the WP is completely covered by the TFCC. Techniques have been developed through welding trials and structural simulation analysis. Those techniques are applied to TF coil production and two TF coils have been completed successfully.
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