调谐绕组:在高频低温电机中使用固体导体的机会之窗

Olivia-Ramona Bruj, Milan Majoros, Michael Sumption, Codrin-Gruie (CG) Cantemir
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摘要

优化技术可以大大提高电机的性能。分析和优化算法的重点在于计算效率。本文提出了低温条件下高频电机的优化方案。在集肤效应和邻近效应方面,导体中的交流电流带来的损耗与应用频率成正比。本文对存在低温冷却剂的定子线圈(由两个铝(Al)匝组成)进行了频率高达 1000 Hz 的分析。为了减少磁场带来的交流损耗,在定子线圈厚度优化中采用了非线性共轭梯度(NCG)方法。在大多数模拟中都观察到了频率依赖性。在液氢(LH2)冷却剂存在的情况下,Al 1100 导体的功率损耗最小。
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Tuned Windings: the window of opportunity for the implementation of solid conductors in high frequency cryogenic electric machines
Optimization techniques can significantly improve the performance of electrical machines. The analysis and the optimization algorithms focus on computational efficiency. In this paper, the optimization of a high frequency electrical machine in cryogenic conditions is proposed. The losses introduced by AC current in a conductor are directly proportional with the applied frequency in terms of skin effect and proximity effect. The stator coil, made from two aluminium (Al) turns, in the presence of cryogenic coolants has been analysed at frequencies up to 1000 Hz. In order to reduce the AC losses introduced by the magnetic fields, Nonlinear Conjugate Gradient (NCG) method has been applied for the stator coil thickness optimization. Frequency dependence is observed in most simulations. In the presence of Liquid Hydrogen (LH2) coolant, Al 1100 conductor presents the minimum power loss.
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