Actuators | |
Drop-Downs of an Outer Rotor Flywheel in Different Planetary Touch-Down Bearing Designs | |
Timo Hopf1  Stephan Rinderknecht1  Benedikt Schüßler1  | |
[1] Institute for Mechatronic Systems, Technical University of Darmstadt, 64287 Darmstadt, Germany; | |
关键词: flywheel; energy storage; outer rotor; drop-down; touch-down bearing; backup bearing; | |
DOI : 10.3390/act11020030 | |
来源: DOAJ |
【 摘 要 】
With an increase in renewable energy in the electricity grid, more storage capacity for grid stabilization and energy flexibilization is necessary. Dynamic grid stabilization is one possible application for flywheels. To increase the energy density of flywheels, they can be built as highly integrated outer rotor systems. The losses of the flywheel are reduced by magnetic levitation and operation under vacuum conditions. In the case of the failure or overload of the active magnetic bearings, the system needs touch-down bearings to prevent system destruction. Planetary touch-down bearings consisting of several small bearing units circumferentially distributed around the stator are especially suited for these systems. In the literature, these planetary touch-down bearings are rarely investigated, especially the number of bearing units. Therefore, this paper investigates the influence of the number of touch-down bearing elements in simulations and experiments for an 8-element and a 6-element touch-down bearing arrangement. For the investigation, drop-downs at four different speeds were performed. Simulation and experimental results showed that, for the 6-element touch-down bearing, in contrast to the 8-element touch-down bearing, maximal velocity did not increase with the drop-down speed. Therefore, the touch-down bearing arrangement with fewer elements is preferrable.
【 授权许可】
Unknown