Cooling the high-temperature superconductor materials magnitolevitatsionnyh systems

Abstract

One of the most pressing problems of modern transport systems in terms of volume growth and improve the quality of freight and passenger traffic in the world of today are increasing the traffic speed and decrease energy costs associated with these services. These problems can be solved through the introduction of high-speed, in particular maglev transport systems. This article provides a description and possible applications of cooling superconducting materials in the development of promising structures maglev transport systems. The relevance of the research world experience in the use of high-temperature superconducting materials using maglev technologies in various fields of science and technology. The purpose of this article is to summarize the currently existing cooling systems of tendencies of development of low-temperature and high-temperature superconducting devices. Identify the key strategic directions of development of technologies in this field, as well as the generalization of performance characteristics of systems with low and high temperature superconducting devices. Results: In this article of the used analytical methods. The results obtained in the course of the research, will create the basis for further research in the field of manufacture of superconducting materials and in the development of high-performance cooling systems. The practical significance of the results is the significant simplification of further research in the field of superconducting technology and focus on the most important unsolved problems in this area. Conclusions: The article deals with current issues of application systems cryostatting LTS and HTS systems using high-temperature superconductors. The existing to date design of cooling systems, as well as highlights of the promising directions of development of this area.