The Force Relaxation in Levitating High Tc Superconductor

Advances in cryogenic engineering Pub Date : 2006-04-21 DOI:10.1063/1.2192429
E. Ito, Y. Komano, K. Sawa, M. Murakami, N. Sakai, I. Hirabayashi
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Abstract

In development of a flywheel energy storage system, electric power loss reduction is expected by using superconducting bearings. However, for realization of superconducting bearing strong levitation force, rotation loss reduction and axial descent reduction are required. It is known with axial descent reduction technology that a preload method is effective, whereas by this method, the levitation force becomes quite small compared with the normal levitation. We confirmed the performance of the preload method by experiment using a YBCO superconducting electromagnet. The preload method is improved and a method, which does not change the rate of the force relaxation and makes the levitation force larger than the existing preload method is proposed.
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高Tc超导体悬浮中的力弛豫
在飞轮储能系统的开发中,期望通过使用超导轴承来降低电力损耗。然而,要实现超导轴承的强悬浮力,需要减少旋转损失和轴向下降。轴向下降减少技术是已知的预加载方法是有效的,然而,通过这种方法,与正常的悬浮相比,悬浮力变得相当小。用YBCO超导电磁铁实验验证了预载方法的性能。对预紧力法进行了改进,提出了一种既不改变力松弛速率,又使悬浮力大于现有预紧力法的方法。
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Advances in cryogenic engineering
Advances in cryogenic engineering
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