用于快速淬火保护的双栅极线圈绕组

arXiv - PHYS - Accelerator Physics Pub Date : 2024-06-04 DOI:arxiv-2406.02467

Steven T. Krave, Vittorio Marinozzi

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引用次数: 0

摘要

随着超导磁体技术向更高性能发展，能量密度和总存储能量也呈指数级增长。保护磁体变得更具挑战性，传统方法已达到极限。CLIQ（耦合损耗诱导淬火）等新技术有望为保护先进磁体提供一种可靠的方法，但它们在大型磁体串或低磁场时会受到电感限制，从而导致更复杂的配置。本文介绍了一种可大幅减少这种限制并改善响应时间的技术，即以类似方式绕制线圈，并在典型操作中将它们串联起来，同时提供反并联连接，以在保护情况下实现准零电感。这样可以实现极高的 di/dt。然后在一个小型 REBCO 线圈上演示了这一概念。

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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Bi-Filar Coil Winding for Fast Quench Protection

As superconducting magnet technology is pushed towards higher performance, energy density and total stored energy follow exponentially. Protecting magnets becomes substantially more challenging with traditional methods being stretched to their limits. New technologies such as CLIQ (Coupling Loss Induced Quench) promise to provide a robust method to protect advanced magnets, however they become inductance limited in large magnet strings or at low field, leading to more complex configurations. A technique to substantially reduce this limitation and improve response time is presented, by winding coils in a bifilar fashion and connecting them in series for typical operation, while providing an anti-parallel connection for quasi-zero-inductance in a protection case. This allows for extremely high di/dt. The concept is then demonstrated on a small REBCO coil.

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arXiv - PHYS - Accelerator Physics

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