Journal
IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
Volume 31, Issue 5, Pages -Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TASC.2021.3064516
Keywords
Conical frustum; h-formulation; HTS bulks; levitation force; superconducting magnetic bearing
Funding
- New Zealand Ministry of Business, Innovation and Employment (MBIE) [RTVU1707]
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The study investigates a novel thrust bearing geometry with a conical frustum-shaped permanent magnet levitating inside a high-temperature superconductor bulk, showing superior restoring forces and stiffness compared to conventional arrangements. The optimal angle of the frustum for levitation force is not universal, depending on displacement mode and dimensions, with correlations to magnetic flux for determining the angle best suited for the bearing's operating regime.
The widespread application of superconducting magnetic levitation bearings is limited by their relatively low stiffness. Recently we investigated a novel thrust bearing geometry comprised of a conical frustum (or truncated cone) shaped permanent magnet levitating inside a matching tapered hole machined into a high-temperature superconductor bulk. This configuration was found to produce superior restoring forces and stiffness compared to the conventional cylindrical magnet and superconductor arrangement. Here, usingH-formulation finite-element simulations, we evaluate the angle-dependence of the frustum on the levitation force. We find that the optimal angle is not universal, but depends on the mode of displacement as well as the frustum dimensions. Correlations with the incident magnetic flux are identified for estimating the angle best suited to the operating regime of the bearing.
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