Steady-State Analysis of Parallel-Operated Self-Excited Induction Generators Supplying an Unbalanced Load

Jordan Radosavljević; Dardan Klimenta; Miroljub Jevtić

doi:10.2478/v10187-012-0031-9

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Steady-State Analysis of Parallel-Operated Self-Excited Induction Generators Supplying an Unbalanced Load

Journal of Electrical Engineering

Volume 63 (2012): Issue 4 (July 2012)

By: Jordan Radosavljević, Dardan Klimenta and Miroljub Jevtić

Open Access

|Sep 2012

Abstract

This paper proposed a multi-objective genetic algorithm (MOGA) based approach for determining the steady-state performance characteristics of three-phase self-excited induction generators (SEIGs) operating in parallel and supplying an unbalanced load. The symmetrical component theory is used for the transformation of a complex three-phase generators-capacitances-load system to a simple equivalent circuit. The MOGA has been employed for the determination of unknown variables by minimizing the impedance module of the equivalent circuit. Using this approach, effects of various parameters on the terminal voltage control characteristics are examined for two parallel SEIGs with C2C connection under a single phase load.

References

RADOSAVLJEVIĆ, J.—JEVTIĆ, M. Klimenta, D.—: Optimal Seasonal Voltage Control in Rural Distribution Networks with Distributed Generators, J. Electrical Engineering 61 No. 6 (2010), 321-331.10.2478/v10187-010-0051-2
Search in Google Scholar
SIMOES, M. G.—FARRET, F. A.: Renewable Energy Systems - Design and Analysis with Induction Generators, CRC Press, Raton, FL, 2004.
Search in Google Scholar
SHRIDHAR, L.—SINGH, B.—JHA, C. S.—SINGH, B. P.: Analysis of Self Excited Induction Generator Feeding Induction Motor, IEEE Transactions on Energy Conversion, 9 No. 2, (1994), 390-396.
Search in Google Scholar
CHAN, T. F.: Steady-State Analysis of Self-Excited Induction Generators, IEEE Transactions on Energy Conversion 9 No. 2 (1994), 288-296.10.1109/60.300146
Search in Google Scholar
CHAN, T. F.: Self-Excited Induction Generators Driven by Regulated and Unregulated Turbines, IEEE Transactions on Energy Conversion 11 No. 2 (1996), 338-343.10.1109/60.507644
Search in Google Scholar
CHAKRABORTY, C.—BHADRA, S. N.—CHA-TTOPADHYAY, A. K.: Excitation Requirements for Stand Alone Three-Phase Induction Generator, IEEE Trans. on Energy Conversion 13 No. 4 (1998), 358-365.10.1109/60.736321
Search in Google Scholar
ALGHUWAINEM, S. M.: Steady-State Analysis of a Self-Excited Induction Generator Including Transformer Saturation, IEEE Transactions on Energy Conversion 14 No. 3 (1999), 667-672.10.1109/60.790933
Search in Google Scholar
ALOLAH, A. L.—ALKANHAL, M. A.: Optimization-Based Steady State Analysis of Three Phase Self-Excited Induction Generator, IEEE Trans. On Energy Conversion, 15 No. 1 (2000), 61-65.
Search in Google Scholar
NIGIM, K. A.—SALAMA, M. M. A.—KAZERANI, K.: Identifying Machine Parameters Influencing the Operation of the Self-Excited Induction Generator, Electric Power Systems Research 69 (2004), 123-128.10.1016/j.epsr.2003.08.003
Search in Google Scholar
JOSHI, D.—SANDHU, K. S.: Performance Analysis of Three-Phase Self-Excited Induction Generator using Genetic Algorithm, Electric Power Components and Systems 34 (2006), 461-470.10.1080/15325000500346800
Search in Google Scholar
HAQUE, M. H.: Comparison of Steady State Characteristic of Shunt, Short-Shunt and Long-Shunt Induction Generators, Electric Power System Research 79 (2009), 1446-1453.10.1016/j.epsr.2009.04.017
Search in Google Scholar
HAQUE, M. H.: A Novel Method of Evaluating Performance Characteristics of a Self-Excited Induction Generator, IEEE Transactions on Energy Conversion 24 No. 2 (2009 pp 358-365).10.1109/TEC.2009.2016124
Search in Google Scholar
KUO, S. C.—WANG, L.: Steady-State Performance of a Self-Excited Induction Generator Feeding an Induction Motor, Electric Power Components and Systems 30 (2002), 581-593.10.1080/15325000290084975
Search in Google Scholar
ALOLAH, A. I.—ALKANHAL, M. A.: Analysis of Three Phase Self-Excited Induction Generator under Static and Dynamic Loads, Electric Machines & Drives Conference IEMDC '07, vol. 2, IEEE International Publication 2007, pp. 1783-1786.10.1109/IEMDC.2007.383700
Search in Google Scholar
CHAN, T. F.—LAI, L. L.: Steady-State Analysis and Performance of a Stand-Alone Three Phase Induction Generator with Asymmetrically Connected Load Impedances and Excitation Capacitances, IEEE Transaction on Energy Conversion 16 No. 4 (2001), 327-333.10.1109/60.969471
Search in Google Scholar
MURTHY, S. S.—SINGH, B.—GUPTA, S.—GULATI, B. M.: General Steady-State Analysis of Three-Phase Self-Excited Induction Generator Feeding Three-Phase Unbalanced Load/Single-Phase Load for Stand-Alone Applications, IEE Proc. - Gener. Transm. Distrib. 150 No. 1 (2003), 49-55.10.1049/ip-gtd:20030072
Search in Google Scholar
ALOLAH, A. I.—ALKANHAL, M. A.: Excitation Requirements of Three Phase Self-Excited Induction Generator under Single Phase Loading with Minimum Unbalance, Power Engineering Society Winter Meeting, vol. 1, IEEE, 2000, pp. 257-259.
Search in Google Scholar
KUMARESAN, N.: Analysis and Control of Three-Phase Self-Excited Induction Generators Supplying Single-Phase AC and DC Loads, IEE Proc. Electric Power Applications 152 No. 3 (2005), 739-747.10.1049/ip-epa:20045053
Search in Google Scholar
WANG, Y. J.: Analysis of a Self-Excited Induction Generator Supplying Unbalanced Loads, International Conference on Power System Technology - POWERCON 2004, Singapore, 21-24 Nov 2004, pp. 1457-1462.
Search in Google Scholar
IDJDARENE, K.—REKIOUA, D.—REKIOUA, T.—TOUNZI, A.: Performance of an Isolated Induction Generator under Unbalanced Loads, IEEE Transactions on Energy Conversion 25 No. 2 (2010), 303-311.10.1109/TEC.2009.2036836
Search in Google Scholar
WATSON, D. B.—MILNER, I. P.: Autonomous and Parallel Operation of Self-Excited Induction Generators, Int. J. Elect. Eng. Education 22 (1985), 365-374.10.1177/002072098502200416
Search in Google Scholar
Al-BAHRANI, A. H.—MALIK, N. H.: Voltage Control of Parallel Operated Self-Excited Induction Generators, IEEE Trans. Energy Conversion 8 (1993), 236-242.10.1109/60.222710
Search in Google Scholar
ALBAHRANI, A. H.—MALIK, N. H.: Steady State Analysis of Parallel Operated Self-Excited Induction Generators, Proc. Inst. Elect. Eng. C, 140, No. 1, (1993), 49-55.
Search in Google Scholar
LEE, C.-H.—WANG, L.: A Novel Analysis of Parallel Operated Self-Excited Induction Generators, IEEE Trans. Energy Conversion 13 No. 2 (1998), 117-123.
Search in Google Scholar
CHAKRABORTY, C.—BHADRA, S. N.—CHATTOPADHYAY, A. K.: Analysis of Parallel-Operated Self-Excited Induction Generators, IEEE Trans. Energy Conversion 14 No. 2 (1999), 209-216.10.1109/60.766985
Search in Google Scholar
SANDHU, K. S.: Steady-State Analysis of Multimachine System with Self-Excited Induction Generators, Electric Power Components and Systems 34 (2006), 483-496.10.1080/15325000500358334
Search in Google Scholar
LEE, K. Y.—El-SHARKAWI, M. A.: Tutorial on modern Heuristic Optimization Techniques with Applications to Power Systems, IEEE Power Engineering Society, 2002, IEEE Catalog Number 02TP160.
Search in Google Scholar
AGUSTIN, J. L. B.—LOPEZ, R. D.: Multi-Objective Design and Control of Hybrid Systems Minimizing Costs and Unmet Load, Electric Power Systems Research 79 (2009), 170-180.10.1016/j.epsr.2008.05.011
Search in Google Scholar
AZZAM, M.—MOUSA, A. A.: Using Genetic Algorithm and TOPSIS Technique for Multiobjective Reactive Power Compensation, Electric Power Systems Research 80 (2010), 675-681.10.1016/j.epsr.2009.10.033
Search in Google Scholar
El ELA, A. A. A—SPEA, S. R.: Optimal Corrective Actions for Power Systems using Multi-Objective Genetic Algorithms, Electric Power Systems Research 79 (2009), 722-733.10.1016/j.epsr.2008.10.007
Search in Google Scholar

Articles in this issue

DOI: https://doi.org/10.2478/v10187-012-0031-9 | Journal eISSN: 1339-309X | Journal ISSN: 1335-3632

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Language: English

Page range: 213 - 223

Published on: Sep 17, 2012

Published by: Slovak University of Technology in Bratislava

In partnership with: Paradigm Publishing Services

Publication frequency: 6 issues per year

Keywords:

multi-objective genetic algorithm

Related subjects:

Engineering,

Introductions and overviews,

Engineering, other

© 2012 Jordan Radosavljević, Dardan Klimenta, Miroljub Jevtić, published by Slovak University of Technology in Bratislava
This work is licensed under the Creative Commons License.

Volume 63 (2012): Issue 4 (July 2012)