Ground-effect train

A ground-effect train is a conceptualized alternative to a magnetic levitation (maglev) train. In both cases the objective is to prevent the vehicle from making contact with the ground. Whereas a maglev train accomplishes this through the use of magnetism, a ground-effect train uses an air cushion; either in the manner of a hovercraft (as in hovertrains) or using the wing–in–ground-effect design.

A ground-effect train (concept art)

Details

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). Furthermore, these vehicles may be very drastically affected by wind, air turbulence, and weather. Whereas the magnetic levitation train can be built to operate in a vacuum to minimise air resistance, the ground-effect train must operate in an atmosphere in order for the air cushion to exist.

Development work has been undertaken in several countries since the middle 20th century. No ground-effect train has entered regular commercial service.

Yusuke Sugahara and his team of researchers at Tohoku University, in Sendai, Japan have developed the Aero-Train that uses wings attached to a fuselage to fly inches off the ground. Dubbed a ground-effect vehicle the train is designed to be completely powered by wind and solar energy – making this a true zero-carbon transportation system.^[1][2]

See also

• Aérotrain
• Gravity train
• Ground-effect vehicle
• High-speed rail
• Hovercraft
• Hovertrain
• Hyperloop
• Maglev train
• Transrapid 03
• Tracked Hovercraft