Abstract
This study is concerned with the magnetic force models of magnetic bearing in a flywheel energy storage system (FESS). The magnetic bearing is of hybrid type, with axial passive magnetic bearing (PMB) and radial hybrid magnetic bearing (HMB). For the PMB, a pair of ring-type Halbach arrays of permanent magnets are arranged vertically to support the rotor weight. For the HMB, a set of ring-type Halbach array is placed on the rotor side, which corresponds to coil sets on the stator side. The HMB can produce both attraction and repulsion forces on the radial direction, depending on the direction of the coil currents. It is found that the ring-type configuration and the differential winding scheme for coil sets can yield linear magnetic force models for both PMB and HMB. Based on the obtained magnetic force model, an integral sliding mode controller is designed for the stable rotor levitation in the radial direction. The experimental results show that the rotor can be stabilized to the bearing center, verifying the accuracy of the magnetic force models and effectiveness of the levitation controller.
Highlights
Energy issues have attracted global attention in recent years, especially since accidents occurred in Fukushima, Japan, in 2011
With the increasing percentage of renewable energy, the energy storage system plays a key role in the energy supply chain
Energy storage system plays a significant role in emergency preparedness and in increasing overall grid resilience [2,3]
Summary
Energy issues have attracted global attention in recent years, especially since accidents occurred in Fukushima, Japan, in 2011. It is an inevitable trend to adopt renewable energies in building a sustainable, low-carbon energy supply system [1]. With the increasing percentage of renewable energy, the energy storage system plays a key role in the energy supply chain. It can provide balancing to the electricity grid that can yield more flexibility in a smart grid. It can provide a back-up to intermittent renewable energy sources such as solar power and wind turbine. Energy storage system plays a significant role in emergency preparedness and in increasing overall grid resilience [2,3]
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