An increase of the volumic energy of flywheel energy storage systems promotes axial-flux machines before radial flux machines due to the shorter drive shaft. For the elimination of iron losses during no-load operation, a ceramic plate carries the machine winding whilst providing a good thermal conductivity for the cooling of the winding. The continuation of the ongoing research project aims to validate an ironless axial-flux PM synchronous machine for flywheel applications of up to 40 000 rpm. This requires a machine consisting of stator and rotor as well as an inverter for its operation. Currently, only the isolates ceramic winding carrier could be analyzed, neglecting numerous effects. From the author’s perspective, a successful operation of the axial-flux machine with a very small inductance and low losses demands a modular multi-level inverter. The project plan is therefore extended by the realization of the drive system.

DFG Programme Research Grants