Charging delay elimination of solder impregnated HTS coils with specific excitation current

IF 1.8 3区 工程技术 Q3 PHYSICS, APPLIED Cryogenics Pub Date : 2024-06-09 DOI:10.1016/j.cryogenics.2024.103880
Hongjun Zhang , Rui Kang , Ling Zhao , Ao Feng , Wei Li , Jin Zhou , Yaqiang Wang , Rui Ma , Chunyan Li , Chengtao Wang , QingJin Xu
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Abstract

No-insulation (NI) coil has been recognized as the most practical solution at present to achieve ultra-high magnetic field with the REBCO high temperature superconductor thanks to its passive quench protection mechanism which is originated from the inter-turn current bypass. However, for the NI technique, one of the most important obstacles to a more general application is the field delay which is also a consequence of the lack of inter-turn insulation. The proportional and integral (PI) active feedback control of power supply has been developed to achieve a designed field ramping rate. The efficiency of this method could however be affected by the measurement accuracy of measuring equipment, sampling frequency, control accuracy of power supply and other factors. In this manuscript, we tried to use a more fundamental method to mitigate the field delay. The point is, though unlike in insulated coils the field generated is not proportional to coil current in NI coils, they do have a certain linear relation for a certain coil. Based on the lumped circuit model, the current charging curve corresponding to a desired field excitation could be calculated for a NI coil. We verified this method on several solder impregnated no-insulation coils (SINoInCs) to excite their field with different rates, for which the field delay with normal charging method could be very large because of the very low inter-turn resistance. The test results show that this kind of fast excitation method could successfully achieve the desired field with high accuracy and mitigate the field delay from 130 s to almost 0 s. Besides, the large overshoot current introduced by the fast charging does not quench the coils even with an overshoot current which is almost double of the coils’ operating current.

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用特定激励电流消除浸渍焊料的 HTS 线圈的充电延迟
无绝缘(NI)线圈是目前利用 REBCO 高温超导体实现超高磁场的最实用解决方案,这得益于其源自匝间电流旁路的被动淬火保护机制。然而,对于 NI 技术而言,更广泛应用的最重要障碍之一是磁场延迟,这也是缺乏匝间绝缘的结果。为了达到设计的磁场斜率,已经开发出了对电源进行比例和积分(PI)主动反馈控制的方法。但这种方法的效率可能会受到测量设备的测量精度、采样频率、电源控制精度等因素的影响。在本手稿中,我们尝试使用一种更基本的方法来减少磁场延迟。问题在于,虽然与绝缘线圈不同,在 NI 线圈中产生的磁场与线圈电流并不成正比,但对于特定线圈而言,它们确实存在一定的线性关系。根据叠加电路模型,可以计算出 NI 线圈所需的场激励对应的电流充电曲线。我们在几个焊料浸渍无绝缘线圈(SINoInC)上验证了这一方法,以不同的速率激发其磁场。由于线圈匝间电阻非常低,采用普通充电方法的磁场延迟可能非常大。测试结果表明,这种快速励磁方法可以成功地实现所需的高精度磁场,并将磁场延迟从 130 秒减少到几乎为 0 秒。此外,即使过冲电流几乎是线圈工作电流的两倍,快速充电引入的大过冲电流也不会使线圈熄灭。
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来源期刊
Cryogenics
Cryogenics 物理-热力学
CiteScore
3.80
自引率
9.50%
发文量
0
审稿时长
2.1 months
期刊介绍: Cryogenics is the world''s leading journal focusing on all aspects of cryoengineering and cryogenics. Papers published in Cryogenics cover a wide variety of subjects in low temperature engineering and research. Among the areas covered are: - Applications of superconductivity: magnets, electronics, devices - Superconductors and their properties - Properties of materials: metals, alloys, composites, polymers, insulations - New applications of cryogenic technology to processes, devices, machinery - Refrigeration and liquefaction technology - Thermodynamics - Fluid properties and fluid mechanics - Heat transfer - Thermometry and measurement science - Cryogenics in medicine - Cryoelectronics
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