Small-sized magnetolevitation system of the trestle type for the Arctic

¹ Ph.D. in Economics, Senior Researcher, Federal Research Centre «Komi Scientific Centre of Ural Branch of Russian Academy of Sciences», 167982, Syktyvkar, Russian Federation
² Ph.D. in Technology, Associate Professor, Department of Mathematical Methods in Management, Saint Petersbourg State Forest Technical University, 194021, Saint Petersbourg, Russian Federation
³ Senior engineer, Federal Research Centre «Komi Scientific Centre of Ural Branch of Russian Academy of Sciences», 167982, Syktyvkar, Russian Federation
⁴ Bachelor, Syktyvkar Forest Institute, 167982, Syktyvkar, Komi republic, Russian Federation

^* Corresponding author: jek-sun@mail.ru

Abstract

The construction of large technical systems (industrial and transport) poses a threat to the environmental situation in the Arctic. On the other hand, the operation of such systems in harsh Arctic conditions is also unsafe, especially in permafrost conditions. We offer a small-sized maglev system of the trestle type with “movers” and “fellow travelers” type suspension. In this system, the track magnetic field is created by a moving sequence of interacting magnetic field sources –movers in a special control channel (beam, pipe), which also interact with the magnetic field sources of transport modules –fellow travelers. Fellow travelers are suspended in controlled channels due to interaction with permanent sources of magnetic field. The structure is mounted on arc-shaped supports that evenly distribute the load on the supporting surface and protect it from snow drifts and water flows. A model of a two-channel system with the lower location of the controlled channel has been developed. Further improvement of the system involves the use of the “magnetic potential hole” effect and the principles of the planetary model construction.