Superconducting paddle wheels, screws, and other propulsion units for high‐speed ground transportation

High‐speed ground vehicles magnetically suspended above a continuous aluminum guideway by superconducting coils can have a clearance of 0.1–0.3 m. To take full advantage of the large clearance, a propulsion system with a comparable clearance is needed. Two such systems based upon physically moving static magnetic fields produced by superconducting coils are proposed. With the use of a prime mover such as a gas turbine or a diesel engine, these systems avoid power collection problems and should result in a lower‐weight propulsion unit. A numerical analysis of each has been made to determine the thrust, the lift force, and the efficiency as a function of various parameters. The mechanical efficiency of the paddle wheel appears to have a maximum of ∼60% at 483 km/h (300 mph), while that of the superconducting screw is (1‐slip) for an infinitely long machine. End effects will degrade the efficiency somewhat for a screw of finite length.

[1]  Michael Tinkham,et al.  Magnetic Suspension and Propulsion Systems for High‐Speed Transportation , 1972 .

[2]  J. Maxwell A Treatise on Electricity and Magnetism , 1873, Nature.

[3]  Y Kyotani ROAD-USER PERCEPTION , 1972 .

[4]  L. C. Davis,et al.  Force on a Coil Moving over a Conducting Surface Including Edge and Channel Effects , 1972 .

[5]  S. L. Wipf,et al.  Magnetic Suspension and Guidance for High Speed Rockets by Superconducting Magnets , 1969 .

[6]  John R. Reitz,et al.  High-speed transportation via magnetically supported vehicles. A study of the magnetic forces , 1971 .

[7]  L. C. Davis,et al.  Force on a Rectangular Coil Moving above a Conducting Slab , 1972 .

[8]  L. C. Davis,et al.  Analysis of Motion of Magnetic Levitation Systems: Implications for High‐Speed Vehicles , 1971 .

[9]  F. Fickett RESISTIVITY OF POLYCRYSTALLINE ALUMINUM AND COPPER IN HIGH MAGNETIC FIELDS: THE EFFECT OF TEMPERATURE AND PURITY , 1970 .

[10]  E. Laithwaite,et al.  Induction Machines for Special Purposes , 1966 .

[11]  Joseph L. Smith,et al.  An Experimental Alternator With A Superconducting Rotating Field Winding , 1971 .

[12]  L. C. Davis Drag force on a magnet moving near a thin conductor , 1972 .

[13]  John R. Reitz,et al.  Forces on Moving Magnets due to Eddy Currents , 1970 .

[14]  Troy W. Barbee,et al.  Suspension and Guidance of Vehicles by Superconducting Magnets , 1969 .

[15]  A. Clark,et al.  Preparation of Copper Crystals with Low Electrical Resistivity , 1965 .