采用Nb3Sn导体降低SMES系统成本的研究

Teion kogaku = Cryogenic engineering : [official journal of the Cryogenic Association of Japan] Pub Date : 2002-03-25 DOI:10.2221/JCSJ.37.130

Y. Tsuda, K. Egawa, R. Saito, T. Takayanagi, S. Nagaya, K. Tsutsumi

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引用次数: 0

摘要

采用近年来在成本和性能方面取得进展的Nb3Sn导体，提出了一种降低SMES系统成本的设计方案。该设计的主要特点应该是结合Nb3Sn单线导体和小口径螺线管(=CELL)线圈。降低成本的目的是使用大规模生产方法和经营中小型工厂。然而，这种简单紧凑的设计带来了新的问题。淬火保护是一个特别关键的问题。它需要高速的淬火检测和强制淬火，以减少淬火时的不平衡磁力，防止CELL线圈烧毁。这种使用Nb3Sn导体的SMES系统的成本降低设计与使用NbTi导体的其他设计具有足够的竞争力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Study on Cost Reduction of SMES System, Using Nb3Sn Conductor

A cost-reduction design of the SMES system is proposed, using Nb3Sn conductors that in recent years have shown progress in cost and performance. The main feature of this design should be a combination of Nb3Sn single-strand conductors and a small bore solenoid (=CELL) coil. The cost reduction was intended to use mass production methods and to operate small or medium-sized factories. However, this simple and compact design brings up new issues. Quench protection is especially a key issue. It needs high-speed quench detection and forced-quench that will reduce the unbalance magnetic force at quench and prevent the CELL coil from burning up. This cost-reduction design of the SMES system using Nb3Sn conductors is sufficiently competitive with the other designs that use NbTi conductors.

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Teion kogaku = Cryogenic engineering : [official journal of the Cryogenic Association of Japan]

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