An analytical and genetic-algorithm-based design tool for brushless excitation systems of low-medium rated synchronous generators

Nuzzo, Stefano; Galea, Michael; Gerada, C.; Brown, N.L.

An analytical and genetic-algorithm-based design tool for brushless excitation systems of low-medium rated synchronous generators

Nuzzo, Stefano; Galea, Michael; Gerada, C.; Brown, N.L.

Authors

Stefano Nuzzo

Michael Galea

Professor CHRISTOPHER GERADA CHRIS.GERADA@NOTTINGHAM.AC.UK
PROFESSOR OF ELECTRICAL MACHINES

N.L. Brown

Abstract

The sizing procedures adopted for the everyday design of electrical machines are well known and consolidated. However, for brushless exciters of field wound, synchronous generators, there is significant room for improvement as the impact of the diodes’ commutations in the rotating bridge rectifier are often neglected. This paper deals with the development of a fast analytical, genetic-algorithm-based design tool for the excitation systems of salient-pole, field wound synchronous generators. As vessel for this study, the exciter of a particular 400kVAis considered. The proposed tool is focused on achieving exciter designs that minimize the voltage drop due to the commutation processes in the rotating diode rectifier, with minimum impact on the overall efficiency.

Citation

Nuzzo, S., Galea, M., Gerada, C., & Brown, N. An analytical and genetic-algorithm-based design tool for brushless excitation systems of low-medium rated synchronous generators. Presented at 19th International Conference on Electrical Machines and Systems

Conference Name	19th International Conference on Electrical Machines and Systems
End Date	Nov 16, 2016
Acceptance Date	Jun 1, 2016
Deposit Date	Nov 9, 2016
Peer Reviewed	Peer Reviewed
Keywords	Synchronous Generator, Excitation System, Diode Rectifier, Commutations
Public URL	https://nottingham-repository.worktribe.com/output/787314
Related Public URLs	http://www.icems2016.com/
Contract Date	Nov 9, 2016