The Russian Federation is located at the crossroads of the trade routes of the Eurasian continent, where a significant volume of the transport flow of the world’s trade is formed. The transport potential of the territory of Russia, when implemented as an Integral Transit Transport System (ITTS), is comparable to the benefits from the traditional export of hydrocarbons and other raw materials. Analyzing the efficiency of transport systems, the key is the energy approach. The concept of ITTS is considered, based on all known and being developed transport lines, including high-speed vacuum magnetic levitation transport (VMLT). The fundamental problems are discussed being on the way to achieving the maximal speed, energy efficiency and throughput of VMLT. The preliminary findings are presented obtained from experiments on the test model of the VMLT route. It is concluded that there is a need for a deeper study of the properties of magnetic and superconducting materials in extreme high fields, power and speed regimes to search for fundamentally new technical solutions for the creation of VMLT
New economy - an innovative economy - forms new challenges and new solutions in all spheres of human activity. A key feature of the new economic ties is their global nature. Transport systems based on existing technologies cannot provide the necessary growth of new economic ties and the effective provision of the existing business. New transport systems based on new technologies for transporting goods and passengers in compliance with the principles of energy and financial efficiency, as well as environmental safety, create the foundation for sustainable development of countries and regions, including improving the quality of life of the population and human potential. The rapid speed economic is been formed for nowadays commercial transportation communication. And a realization of any transport project has always tight connection and mutually conditioned with another project type energetics. So, the problem of energy efficiency and energy supply becomes a key factor of a choice of the most energy efficiency of a base system in any transport complex! Aim: The purpose of this article is to provide an alternative solution - the Integrated transit transport system (ITTS) of the Russian Federation based on the energy save technologies of Vacuum magnetic levitation transport (VMLT). Methods: The article discusses organizational, technical, energy efficient, logistic and economic solutions in the field of high-speed land corridors and "energy pipelines" projects, created on the basis of the latest vacuum magnetic levitation transport (VMLT) technologies. Experimental stands used are described, an overview of practical results obtained in laboratory and production equipment, and preliminary results of VMLT prototypings based on a miniature route of rare-earth magnets and leviters based on ceramics from a high-temperature superconductor, possibilities, prospects and the first experimental results of development are presented. of the main critical elements of the WMLT technology. The paper describes the results of using modern additive manufacturing technologies (3d printing) to create a system model, microcryogenic systems, HTSC and REM "nitrogen" temperature levels to create trace elements and system models, with the ability to scale to the current full-size model of the next generation. Results: The presented calculations show the practical possibility of further development and implementation of this project, as well as its very high effectiveness compared to existing systems in terms of practical application, economic, manufacturing, energy efficiency and environmental safety.
Background: The complex of issues arising when considering possible options for the implementation of Eurasian transcontinental high-speed land transport corridors operating on the basis of vacuum magnetic-levitation technologies is analyzed. The exclusivity of Russia’s geographical position in a substantial part lies in the fact that it is through its territory that China can be directly linked by these corridors to Western Europe and also to North America, the rationale is done. Aim: Possible routes connecting Beijing and Shanghai with Moscow are analyzed. Transport highways of a truly innovative type will solve the urgent task of geopolitical level - to organize the states located on the Eurasian continent in a qualitatively new civilizational construction. The purpose of the research is as follows: to develop methods of solving the problems of finding optimal variants for the location of high-speed land transport corridors using computer mathematics systems. This should take into account the features of the territory, through which the transport route is planned to be carried out. Methods: The economic, political, logistical, geographical, technical and technological aspects of these projects are discussed. Optimization methods are used, in particular, the calculus of variations. Results: After the creation of a sufficiently informative and detailed informal picture, the basics of the corresponding mathematical models are constructed. Conclusion: The historical area of Dzungaria is considered as the location of the main intermediate terminal for high speed vacuum magnetic levitation transport.
Background: Research is ongoing relating to the analysis of a set of issues that arise in connection with the creation of the operating on the basis of vacuum magnetic technologies a transcontinental high-speed land transport corridor, connecting the eastern regions of China with Russia. As part of the variation calculus task, the geopolitical, economic, social, logistic, geographic, geomorphological, seismological, topographic components of the project are considered, in which it is assumed that the high speed overland route will pass through the north-western part of the historical region of Dzungaria. Aim: Find the most optimal from the point of view of the above components the location of the most important section of high speed overland route passing through Central Asia. Methods: Variational methods for solving an optimization problem with the use of a computer math system. Results: After creating a fairly informative and versatile picture of the region in question, the foundations of the corresponding mathematical models are built. Conclusion: The New Dzungarian Gates is a key element in choosing the location of a high-speed overland route based on VMLT.
Study and implementation of innovative systems of environmentally friendly and energy-efficient transport based on magnetic levitation, the principle of operation of which is based on the use of new solid-state magnetic materials based on compounds of rare earth materials, in particular materials with high-temperature superconductivity based on Y, permanent magnets based on Nd and Sm and magnetocaloric alloys based on Dy, Tb are of great interest throughout the world. In this work, the basic principles of magneto-levitation transport with the most economical principle of acceleration and deceleration - gravitational - are studied experimentally on mock-ups. The strength characteristics were measured: the levitation force and the lateral stabilization force, as well as losses during periodic translational motion of a cryostat with high-temperature superconducting elements made of ceramic material Y-Ba-Cu-O over the paths of permanent magnets made of the rare-earth compound Nd-Fe-B. A system for measuring the speed and compensation of losses for the implementation of continuous motion has been created and tested. The presented results indicate the possibility of scaling the layout project. It is concluded that the investigated scheme may be of practical interest for intracity and local transport communication with high comfort, environmental friendliness and record economy in the case of a successful solution of the problem of cooling HTSC elements to the temperature of the phase transition to the superconducting state, for example, using new principles of solid-state magnetic cooling based on compounds Dy-N, Tb-Ni, etc.
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