Comparison of Peak Armature and Field Winding Currents for Different Topologies of 10-MW Superconducting Generators Under Short-Circuit Conditions

Guan, Yang; Vedreno-Santos, Francisco; Li, Guang J.; Azar, Ziad; Thomas, Arwyn S.; Li, Guang-Jin; Odavic, M.; Zhu, Z. Q.

doi:10.1109/tasc.2016.2615077

Comparison of Peak Armature and Field Winding Currents for Different Topologies of 10-MW Superconducting Generators Under Short-Circuit Conditions

Guan, Yang; Vedreno-Santos, Francisco; Li, Guang J.; Azar, Ziad; Thomas, Arwyn S.; Li, Guang-Jin; Odavic, M.; Zhu, Z. Q.

Authors

Yang Guan

Dr Francisco Vedreno Santos F.VedrenoSantos@napier.ac.uk
Lecturer

Guang J. Li

Ziad Azar

Arwyn S. Thomas

Guang-Jin Li

M. Odavic

Z. Q. Zhu

Abstract

This paper studies the peak armature and peak field winding currents for three different topologies of 10 MW partial High Temperature Superconducting Generators (HTSGs) under Short-Circuit Conditions (SCC) by simulation. The investigated partial HTSGs employ copper armature windings and superconducting field windings with different armature and rotor topologies, i.e. iron cored armature and rotor, air cored armature and rotor, and iron cored armature and air cored rotor. For each HTSG topology, the investigation includes: (i) the field winding current control strategies, (ii) the influence of operating field current, and (iii) the ratings of circuit breakers for limiting the peak armature and peak field winding currents. The results can provide guidelines for determining the peak armature and peak field currents of HTSGs and also the possibility of limiting them by employing circuit breakers under SCC.

Citation

Guan, Y., Vedreno-Santos, F., Li, G. J., Azar, Z., Thomas, A. S., Li, G., Odavic, M., & Zhu, Z. Q. (2016). Comparison of Peak Armature and Field Winding Currents for Different Topologies of 10-MW Superconducting Generators Under Short-Circuit Conditions. IEEE Transactions on Applied Superconductivity, 26(8), 1-7. https://doi.org/10.1109/tasc.2016.2615077

Journal Article Type	Article
Acceptance Date	Sep 12, 2016
Online Publication Date	Oct 4, 2016
Publication Date	2016-12
Deposit Date	Oct 11, 2016
Publicly Available Date	Oct 12, 2016
Journal	IEEE Transactions on Applied Superconductivity
Print ISSN	1051-8223
Electronic ISSN	1558-2515
Publisher	Institute of Electrical and Electronics Engineers
Peer Reviewed	Peer Reviewed
Volume	26
Issue	8
Pages	1-7
DOI	https://doi.org/10.1109/tasc.2016.2615077
Keywords	superconducting machines, Air-cored, fault conditions, iron-cored, short-circuit
Public URL	http://researchrepository.napier.ac.uk/Output/402716
Contract Date	Oct 11, 2016

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