Open AccessRussia’s integrated transit transport system (itts) of on the basis of vacuum magnetic levitation transport (vmlt)
Author(s) -
Yuri A. Terentyev,
A Terentyev Yuri,
Valery V. Filimonov,
V Filimonov Valery,
Georgii Gennadyevich Malinetskii,
G Malinetskiy Georgy,
Vladimir Smolin,
S Smolin Vladimir,
В. В. Коледов,
V Koledov Victor,
Dmitri A. Suslov,
A Suslov Dmitri,
Denis V. Karpukhin,
V Karpukhin Denis,
А. В. Маширов,
V Mashirov Alexey,
В. Г. Шавров,
V Shavrov Vladimir,
Svetlana V. Fongratowski,
V Fongratowski Svetlana,
Konstantin Kovalev,
L Kovalev Konstantin,
Roman Ilyasov,
I Ilyasov Roman,
V. N. Poltavets,
N Poltavets Vladimir,
Б. А. Левин,
A Levin Boris,
Aleksey M. Davydov,
M Davydov Aleksey,
Yuri S. Koshkidko,
S Koshkidko Yuri,
Petr Kurenkov,
V Kurenkov Petr,
Irina V. Karapetyants,
V Karapetyants Irina,
Pavel V. Kryukov,
V Kryukov Pavel,
Boris V. Drozdov,
V Drozdov Boris,
В. С. Крапошин,
S Kraposhin Valentin,
Michail Yu. Semenov,
Semenov Michail Yu.,
Nikolay A. Nizhelskiy,
A Nizhelski Nikolay,
Vladimir A. Solomin,
A Solomin Vladimir,
Viktor Bogachev,
A Bogachev Viktor,
В. М. Фомин,
M Fomin Vasiliy,
Denis G. Nalyvaichenko,
Gebauer Denis,
Taras Bogachev,
Vasylyshyn Taras,
Valerian V. Tochilo,
V Tochilo Valerian
Publication year - 2018
Publication title -
transportnye sistemy i tehnologii
Language(s) - English
Resource type - Journals
ISSN - 2413-9203
DOI - 10.17816/transsyst201843s157-84
Subject(s) - levitation , magnetic levitation , transit (satellite) , transport system , transit time , throughput , physics , nuclear engineering , engineering , magnet , mechanical engineering , transport engineering , public transport , telecommunications , wireless
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