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Transrapid 09 at the Emsland test facility in Lower Saxony, Germany A full trip on the Shanghai Transrapid maglev train Example of low-speed urban maglev system, Linimo. Maglev (derived from magnetic levitation) is a system of rail transport whose rolling stock is levitated by electromagnets rather than rolled on wheels, eliminating rolling resistance.
The super-speed Transrapid maglev system has no wheels, no axles, no gear transmissions, no steel rails, and no overhead electrical pantographs.The maglev vehicles do not roll on wheels; rather, they hover above the track guideway, using the attractive magnetic force between two linear arrays of electromagnetic coils—one side of the coil on the vehicle, the other side in the track guideway ...
Old Dominion University maglev: In 1999, Old Dominion University agreed to work with American Maglev of Atlanta to construct an on-campus student transportation link of less than 1-mile (1.6 km) — using a smart train / dumb track design in which most sensors, magnets, and computation were located on the train rather than the track. [36]
Germany has developed the Transrapid, a maglev train system. The Transrapid reaches speeds up to 550 km/h (342 mph). The Transrapid reaches speeds up to 550 km/h (342 mph). The Emsland test facility , with a total length of 31.5 km (19.6 mi), operated until 2011 when it was closed and in 2012 its demolition was approved. [ 3 ]
Maglev, or magnetic levitation, is a system of transportation that suspends, guides and propels vehicles, predominantly trains, using magnetic levitation from a very large number of magnets for lift and propulsion.
Maglev trains of China (1 P) J. Maglev trains of Japan (1 P) S. Maglev trains of South Korea (1 P) This page was last edited on 4 January 2025, at 12:28 (UTC). Text ...
Maglev trains are promoted for their energy efficiency since they run on electricity, which can be produced by coal, nuclear, hydro, fusion, wind or solar power without requiring oil. [4] On average most trains travel 483 km/h (300 mph) and use 0.4 megajoules per passenger mile. [ 10 ]
The advantages of a ground effect train over a maglev are lower cost due to simpler construction. Disadvantages include either constant input of energy to keep the train hovering (in the case of hovercraft-like vehicles) or the necessity to keep the vehicle moving for it to remain off the ground (in the case of wing-in-ground effect vehicles).