DocumentCode
1286111
Title
Generator modeling for transformer transfer voltage study
Author
Funabashi, Toshihisa ; Takeuchi, Nohutaka ; Sugimoto, Taku ; Ueda, Toshiad ; Dube, Laurent ; Ametani, Akihiro
Author_Institution
Meidensha Corp., Tokyo, Japan
Volume
14
Issue
4
fYear
1999
fDate
12/1/1999 12:00:00 AM
Firstpage
1193
Lastpage
1198
Abstract
This paper is focused on hydraulic generator modeling in a transient simulation for a transformer transfer voltage due to a lightning surge on a transmission line from the viewpoint of the insulation design of a hydraulic generator station. The transfer voltage of a generator step-up transformer is measured. Three generator models are investigated in comparison with the measured result. A conventional surge impedance model gives a satisfactory result of a calculated peak voltage, but an oscillating frequency disagrees with the measured one. A sub-transient reactance model composed of inductance elements and capacitance elements representing a generator subtransient reactance and an armature winding capacitance can produce a transfer voltage oscillation. However, it cannot simulate the crest value and the oscillating frequency of the measured voltage. A new model proposed in the paper is based on the subtransient reactance model. The inductance is modified by taking into account the frequency characteristic of a transfer voltage. And resistance elements are added in parallel with reactance elements to represent the damping of the voltage oscillation. The accuracy of the proposed model is confirmed to be satisfactory in both transfer voltage crest value and oscillating frequency in comparison with the measured results
Keywords
electric machine analysis computing; hydroelectric generators; machine insulation; machine theory; machine windings; power transformers; armature winding capacitance; frequency characteristic; generator modelling; hydraulic generator modeling; insulation design; lightning surge; oscillating frequency; sub-transient reactance model; subtransient reactance model; surge impedance model; transfer voltage crest value; transformer transfer voltage study; transient simulation; voltage oscillation damping; Capacitance; Electrical resistance measurement; Frequency measurement; Inductance; Lightning; Power system transients; Power transformer insulation; Surges; Transmission line measurements; Voltage;
fLanguage
English
Journal_Title
Energy Conversion, IEEE Transactions on
Publisher
ieee
ISSN
0885-8969
Type
jour
DOI
10.1109/60.815046
Filename
815046
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