DocumentCode
1356443
Title
Modeling and Harmonic Optimization of a Two-Stage Saturable Magnetically Controlled Reactor for an Arc Suppression Coil
Author
Chen, Xuxuan ; Chen, Baichao ; Tian, Cuihua ; Yuan, Jiaxin ; Liu, Yaozhong
Author_Institution
Coll. of Electr. Eng., Wuhan Univ., Wuhan, China
Volume
59
Issue
7
fYear
2012
fDate
7/1/2012 12:00:00 AM
Firstpage
2824
Lastpage
2831
Abstract
Magnetically controlled reactors (MCRs) are usually used as three-phase shunt reactors. They have low harmonic distortion independent of the third harmonic current because most three-phase MCRs are delta connected. However, as arc suppression coils, MCRs are operated in the single-phase mode, and the harmonics can be much higher than those of three-phase MCRs. In this paper, the structure and the mathematical model of a two-stage saturable MCR (TSMCR) are proposed. There are two stages with different lengths and areas in the iron cores. The stages saturate at different times when the TSMCR outputs reactive current. The current harmonics of the first saturated stage can be compensated for when the second stage begins to saturate, to reduce the total harmonics of the output current. The mathematical model that reveals the distribution characteristics of the current harmonics for the TSMCR is also presented. A study of the mathematical model indicates that there are two key factors that affect the total current harmonics of the TSMCR. One is the parameter k, which represents the area ratio of the second stage to the first stage. The other one is the parameter m, which represents the ratio of the length of the first stage to the total length of the magnetic valve in the iron core. The simulations and experiments show that the maximum current harmonics of the novel MCR can be limited to 3.61% of the rated output current when k and m are chosen according to the theoretical mathematical model.
Keywords
arcs (electric); coils; harmonic distortion; iron; magnetic cores; optimisation; power harmonic filters; reactors (electric); valves; TSMCR; arc suppression coil; harmonic distortion; harmonic optimization; iron core; magnetic valve; mathematical model; maximum current harmonics distribution characteristics; three phase MCR; three phase shunt reactor; total current harmonics reduction; two stage saturable MCR; two stage saturable magnetically controlled reactor; Harmonic analysis; Inductors; Iron; Magnetic cores; Mathematical model; Saturation magnetization; Valves; Arc suppression coil; harmonic analysis; magnetic variable control; magnetically controlled reactor (MCR); saturable reactor (SR);
fLanguage
English
Journal_Title
Industrial Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0278-0046
Type
jour
DOI
10.1109/TIE.2011.2173090
Filename
6056562
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