Flywheel energy accumulator

1. A flywheel energy accumulator comprising a vacuum housing, a vertical shaft rotatably supported in said housing by superconductive magnetic axial support bearings, lower and upper flywheels mounted on said shaft in axially spaced relationship, a homopolar electrodynamic machine with a rotating magnetic field disposed in the space between said spaced flywheels and having a stator supported in, or forming parts of, said housing and a rotor mounted on said shaft so as to be disposed within said stator, said superconductive magnetic bearings including a lower passive axial thrust bearing with a lower annular permanent magnet disposed below the lower flywheel, an annular superconductor embedded in a cryostat and being disposed adjacent to, and below, said lower annular permanent magnet and providing repulsion forces and an upper passive axial pull bearing with an upper annular magnet disposed above said upper flywheel, an annular superconductor embedded in a cryostat and being disposed adjacent to, and above, said upper annular permanent magnet and providing attraction forces, such that both bearings jointly counteract the gravity forces of said rotor, said flywheels having a predetermined radius R and mass center points which are disposed at a distance L from each other, the distance L between the flwyheel mass center points being determined by