Genetic algorithm-based optimum performance of compensated self-excited induction generator

被引：0

作者：

Chauhan Y.K. ^{[1
]}

Jain S.K. ^{[2
]}

Singh B. ^{[3
]}

机构：

[1] School of Engineering, GB University, Gr. Noida

[2] EIED, Thapar University, Patiala

[3] EED, IIT Delhi, New Delhi

来源：

International Journal of Modelling and Simulation | 2011年 / 31卷 / 04期

关键词：

Compensated SEIG; Genetic algorithm; Optimum performance; SEIG; Voltage regulation optimization;

D O I：

10.2316/Journal.20.2011.4.205-5316

中图分类号：

学科分类号：

摘要：

The self-excited induction generator (SEIG) shows drooping voltage with the load and thus exhibits poor performance, which can be improved through short-shunt SEIG. In this paper, the series and shunt capacitances for short-shunt SEIG are selected to provide optimum voltage regulation and to provide optimum performance, a combination of voltage regulation and loadability. Correspondingly, the optimization is attempted using genetic algorithm (GA). The GA, a global search and optimization method, provides optimum values of capacitances. The study is carried out for resistive and inductive loads and the results are validated experimentally.

引用

页码：263 / 270

页数：7

共 22 条

[1]

Murthy S.S., Malik O.P., Tandon A.K., Analysis of selfexcited induction generators, IEE Proceedings, Generation, Transmisson, and Distribution, 129, 6, pp. 260-265, (1982)

[2]

Al-Jabri A., Alolah A.I., Limits on the performance of the three-phase self-excited induction generators, IEEE Transactions on Energy Conversion, 5, 2, pp. 350-357, (1990)

[3]

Malik N.H., Mazi A.A., Capacitance requirement for isolated self-excited generators, IEEE Transactions Energy Conversion, 2, 1, pp. 62-69, (1987)

[4]

Chakraborty C., Bhadra S.N., Chattopadhyay A.K., Excitation requirements for stand alone three-phase induction generator, IEEE Transactions on Energy Conversion, 13, 4, pp. 358-365, (1998)

[5]

Shridhar L., Singh B., Jha C.S., Singh B.P., Murthy S.S., Selection of capacitors for the self regulated short shunt self excited induction generator, IEEE Transactions Energy Conversion, 10, 1, pp. 10-17, (1995)

[6]

Wang L., Su J.-Y., Effects of long-shunt and short-shunt connections on voltage variations of a self-excited induction generator, IEEE Transactions on Energy Conversion, 12, 4, pp. 368-374, (1997)

[7]

Singh S.P., Jain S.K., Sharma J., Voltage regulation optimization of compensated self-excited induction generator with dynamic load, IEEE Transactions on Energy Conversion, 19, 4, pp. 724-732, (2004)

[8]

Bim E., Szajner J., Burian Y., Voltage compensation of an induction generator with long-shunt connection, IEEE Transactions on Energy Conversion, 4, 3, pp. 526-530, (1989)

[9]

Wang L., Lee C.H., Long-shunt and short-shunt connections on dynamic performance of a SEIG feeding an induction motor load, IEEE Transactions on Energy Conversion, 15, 1, pp. 1-7, (2000)

[10]

Anagreh Y.N., Al-Kofahi I.S., Genetic algorithm-based performance analysis of self-excited induction generator, International Journal of Modelling and Simulation, 26, 2, pp. 175-179, (2006)

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