The paper presents the experimental testing of two variants of scaled prototype (10 kW) of a four-three-phase fault tolerant induction machine to be installed on the high pressure shaft of an open rotor jet engine. The two machines have the same overall dimensions, but one machine adopts a conventional magnetic core made of thin laminated FeSi alloy while in the other one the rotor is made of FeCo. Starting from the classic experimental tests, the parameters of the prototypes are computed to determine and compare the electromechanical performance of the two solutions.
Cavagnino, A., Tenconi, A., Rizzoli, G., Mengoni, M., Serra, G. (2014). Multiphase induction machine for aero-engine shaft-line-embedded starter/generator: Scaled prototypes testing. Institute of Electrical and Electronics Engineers Inc. [10.1109/ICELMACH.2014.6960475].
Multiphase induction machine for aero-engine shaft-line-embedded starter/generator: Scaled prototypes testing
RIZZOLI, GABRIELE;MENGONI, MICHELE;SERRA, GIOVANNI
2014
Abstract
The paper presents the experimental testing of two variants of scaled prototype (10 kW) of a four-three-phase fault tolerant induction machine to be installed on the high pressure shaft of an open rotor jet engine. The two machines have the same overall dimensions, but one machine adopts a conventional magnetic core made of thin laminated FeSi alloy while in the other one the rotor is made of FeCo. Starting from the classic experimental tests, the parameters of the prototypes are computed to determine and compare the electromechanical performance of the two solutions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
