FULLY INTEGRATED FLYWHEEL ENERGY STORAGE SYSTEM WITH MAGNETIC HTS SUSPENSION

The article presents the results of research on the development of a fully integrated structure of the flywheel energy storage system (FESS) with combined magnetic suspension with HTS. The obtained technical solutions make it possible to provide a stable levitation of the flywheel, to non-contact regulate the force of thrust bearing with permanent magnet in the vacuum chamber of FESS, perform an initial centering of the flywheel and operationalize a safety bearing in case of accidents. These functions are performed by constructive elements, which controlled by a magnetic field and combined with the magnetic suspension. The theoretical results are confirmed by experiments on laboratory models of FESS. Application of FESS allows engineers to improve reliability of power supply, electric transport, more efficient use of promising new sources of hydrogen energy. 

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