Title :
A superconducting induction motor using double-helix dipole coils
Author :
Goodzeit, C.L. ; Meinke, R.B. ; Ball, M.J.
Author_Institution :
Adv. Magnet Lab., Palm Bay, FL, USA
fDate :
6/1/2003 12:00:00 AM
Abstract :
The double-helix dipole configuration, which uses concentric pairs of oppositely-tilted helical windings to generate a dipole field, is the basis of a design for a unique high-torque, low-rpm, compact superconducting motor. We describe an analysis method that uses coupled mutually-inductive equivalent circuits for each phase for computing the performance and operating characteristics of such a device. We discuss the performance and limitations of an example motor that uses NbTi superconducting cables for the stator and rotor. The example device is a 4-pole, 2-phase induction motor that produces typically 10 000 HP for a 1-m effective length rotor with a 0.4 m diameter rotor operating at ∼300 rpm. In addition, the relatively large minimum bend radius of the double-helix coil configuration also facilitates the use of brittle superconducting materials such as HTS or A-15 for this application.
Keywords :
equivalent circuits; induction motors; machine theory; rotors; stators; superconducting coils; superconducting machines; torque; 0.2 m; 1 m; A-15; HTS; NbTi; NbTi superconducting cables; analysis method; brittle superconducting materials; compact superconducting motor; concentric pairs; coupled mutually-inductive equivalent circuits; dipole field; double-helix dipole configuration; four-pole induction motor; high-torque motor; low-rpm motor; oppositely-tilted helical windings; superconducting induction motor; superconducting rotor; superconducting stator; two-phase induction motor; Circuit analysis computing; Coupling circuits; Equivalent circuits; Induction generators; Induction motors; Mutual coupling; Performance analysis; Rotors; Superconducting cables; Superconducting coils;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2003.813054
