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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 top operational commercial speed of the Shanghai maglev was 431 km/h (268 mph), making it the world's fastest train in regular commercial service from its opening in April 2004 until its speed reduction in May 2021. [3]
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]
The L0 Series (Japanese: L ( エル ) 0 ( ゼロ ) 系 ( けい ), Hepburn: Eru-zero-kei, "L zero series") [3] is a high-speed maglev train which the Central Japan Railway Company (JR Central) has been developing and testing.
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 ...
While it's regular long-distance trains reach maximum operating speeds of 350 km/h (217 mph), the world's fastest train currently is the Shanghai Maglev, which can operate at 460 km/h (286 mph) on ...
It set a world record speed for a manned train of 603 km/h (375 mph) on 21 April 2015. [52] On 26 March 2020, the Improved L0 Series started operations on the test track. It represents the completion of 80–90% of the design goals for the final train, and is the first to draw power from the track. Previous models used on-board gas generators.
The Baltimore–Washington Superconducting Maglev Project (SCMAGLEV) is a proposed project connecting the United States cities of Baltimore, Maryland, and Washington, D.C., with a 40 miles (64 km) maglev train system between their respective central business districts. It is the first segment of the planned Washington-New York Northeast Maglev ...