Open AccessHTS generator assessment. Final report, DOE SPI-Phase I: Task I
Author(s) -
G.M. Cotzas
Publication year - 1995
Language(s) - English
Resource type - Reports
DOI - 10.2172/503515
Subject(s) - generator (circuit theory) , shunt generator , superconducting electric machine , work (physics) , rotor (electric) , task (project management) , superconductivity , electric generator , electrical engineering , induction generator , air gap (plumbing) , computer science , magnetic field , mechanical engineering , engineering , permanent magnet synchronous generator , physics , materials science , electromagnetic coil , superconducting magnet , superconducting magnetic energy storage , condensed matter physics , systems engineering , magnet , voltage , quantum mechanics , composite material , power (physics)
The intention of this work was to continue the superconducting generator work that was terminated in the eighties. The generator design concept employs a sc generator rotor winding and aims at capitalizing fully on the very high magnetic flux density in the generator air gap now possible through the use of superconductivity in the generator field