Thermal model for a low-speed flywheel in low vacuum

Kluyskens, Virginie;Van Beneden, Maxence;Dehez, Bruno
(2016) The 15th international symposium on Magnetic Bearings — Location: Kitakyushu, Japan (3.August.2016)

Files

ISMB15_Thermal_model.pdf
  • Restricted Access
  • Adobe PDF
  • 1.47 MB

Details

Authors
Abstract
This paper presents a model aimed to predict the temperature inside a flywheel energy storage system, and more specifically the temperature of the permanent magnet bearings of the system. The windage losses are evaluated by supposing an incompressible Couette flow between the flywheel and the enclosure. The eddy current losses inside the permanent magnet bearing are evaluated by a finite element (FE) electro-mechanical model. Those losses are injected into a FE thermal model. It shows that, in stationary low vacuum conditions, the temperature remains at acceptable levels. The sensitivity of the model to various parameters is also studied. Finally, the case of a loss of vacuum is examined, and it is shown that the system has a high time constant, and that the temperature of the magnets raises slowly enough.
Affiliations

Citations

Kluyskens, V., Van Beneden, M., & Dehez, B. (2016). Thermal model for a low-speed flywheel in low vacuum. Proceedings of ISMB15, p. 58-65. https://hdl.handle.net/2078.5/51081