REBCO coated conductors: enabling the next generation of tokamak reactors

导电体 热核聚变 材料科学 托卡马克 聚变能 螺线管 核工程 磁铁 工程物理 电气工程 复合材料 等离子体 核物理学 物理 工程类
作者
Xiaodong Li,Mark Ainslie,Dongbin Song,Wenjiang Yang,Rafael Macián‐Juan
出处
期刊:Superconductor Science and Technology [IOP Publishing]
标识
DOI:10.1088/1361-6668/ada9d2
摘要

Abstract The discovery of REBCO (rare-earth barium copper oxide) materials with high critical temperatures, and the continued advancements in the fabrication of REBCO coated conductors with extremely high critical current densities, has enabled the development of ultra-high-field (> 20 T) compact and large-scale thermonuclear fusion devices. At present, around a dozen global commercial manufacturers are able to supply high-quality REBCO coated conductors with excellent performance. Significant advancements have been made for high-temperature, low-field applications such as motors, generators, long-length transmission cables, and so on using REBCO coated conductors. Nonetheless, multiple ongoing critical challenges under low-temperature, high-field conditions, such as irreversible degradation of the critical current, along with insufficient mechanical protection and inadequate reduction of AC losses, remain unsolved, collectively hindering their utilization in high-field thermonuclear fusion reactors. This paper provides a comprehensive theoretical and technical review of the current state-of-the-art, associated challenges, and prospects in the research and development (R&D) of REBCO coated conductors, cables, and magnet systems for high-field fusion. It highlights the significant enhancements in current-carrying capacity, mechanical protection, and AC loss reduction achieved over the past decade. The paper delves into detailed analyses of potential cabling solutions that offer exceptional current-carrying capacity while ensuring an optimal inductance balance for toroidal, poloidal, and central solenoid coils in tokamak devices. This work endeavors to lay the groundwork for the R&D of the next-generation REBCO magnets to facilitate the construction of ultra-high-field compact and large-scale tokamak reactors.

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