Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy

Youcef Bekakra; Djilani Ben Attous

Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy

Year 2012, Volume: 2 Issue: 3, 471 - 476, 01.09.2012

Abstract

In this paper, we present a comparative study between space vector modulation (SVM) and pulse width modulation (PWM) inverter in sliding mode control (SMC) of active and reactive power control of a doubly fed induction generator (DFIG) for variable speed wind energy. The feasibility and effectiveness of the two methods are demonstrated by simulation results. The obtained results showed that, the proposed SMC with SVM inverter have stator and rotor current with low harmonic distortion and low active and reactive powers ripples than PWM inverter.

Keywords

Doubly Fed Induction Generator; Wind Energy; Sliding Mode Control; Space Vector Modulation; Pulse Width Modulation.

References

S. Heier, Grid integration of wind energy conversion systems, John Wiley and Sons; 1998.
M. Verij Kazemi, A. Sadeghi Yazdankhah, H. Madadi Kojabadi, Direct power control of DFIG based on discrete space vector modulation, Renewable Energy, Vol. 35, pp. 1033-1042, 2010.
J. Ik. Jang, Y. S. Kim, D. C. Lee, active and reactive power control of DFIG for wind energy conversion under unbalanced grid voltage, IPEMC, 2006.
VI. Utkin, Variable structure systems with sliding modes- a survey. IEEE Trans. Automat Control,; Vol. 22, N°. 2, pp. 212-222, 1977.
H. Amimeur, D. Aouzellag, R. Abdessemed, K. Ghedamsi, Sliding mode control of a dual-stator induction generator for wind energy conversion systems, Electrical Power and Energy Systems, Vol. 42, pp. 60-70, 2012.
A. Jidin, T. Sutikno, MATLAB/SIMULINK based analysis of voltage source inverter with space vector modulation,” TELKOMNIKA, Vol. 7, N0. 1, pp. 23 -30, April 2009.
S. El Aimanj, B. Francois, F. Minne, B. Robyns, Comparison analysis of control structures for variable speed wind turbine, In Proceedings of CESA, CD, Lille, France, July 2003.
M. Machmoum, F. Poitiers, Sliding mode control of a variable speed wind energy conversion system with DFIG, International Conference and Exhibition on Ecologic Vehicles and Renewable Energies, MONACO, March 26-29 (2009).
Y. Bekakra, D. Ben Attous, Sliding Mode Controls of Active and Reactive Power of a DFIG with MPPT for Variable Speed Wind Energy Conversion, Australian Journal of Basic and Applied Sciences, Vol. 5, N°. 12, pp. 2274-2286, 2011.
Y. Bekakra, D. Ben attous, A sliding mode speed and şux control of a doubly fed induction machine, Electrical and Electronics Engineering, IEEE Conference, pp. I-174 - L178, 2009.
M. Abid, A. Mansouri, A. Aissaoui, B. Belabbes, Sliding mode application in position control of an induction machine, J. Electr. Engin., V01. 59, N°. 6, pp. 322-327, 2008.
J. Lo, Y. Kuo, Decoupled fuzzy sliding mode control, IEEE Trans. Fuzzy Syst., V01. 6, N°. 3, pp. 426- 435, 1998.
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Year 2012, Volume: 2 Issue: 3, 471 - 476, 01.09.2012

Youcef Bekakra Djilani Ben Attous

Abstract

References

S. Heier, Grid integration of wind energy conversion systems, John Wiley and Sons; 1998.
M. Verij Kazemi, A. Sadeghi Yazdankhah, H. Madadi Kojabadi, Direct power control of DFIG based on discrete space vector modulation, Renewable Energy, Vol. 35, pp. 1033-1042, 2010.
J. Ik. Jang, Y. S. Kim, D. C. Lee, active and reactive power control of DFIG for wind energy conversion under unbalanced grid voltage, IPEMC, 2006.
VI. Utkin, Variable structure systems with sliding modes- a survey. IEEE Trans. Automat Control,; Vol. 22, N°. 2, pp. 212-222, 1977.
H. Amimeur, D. Aouzellag, R. Abdessemed, K. Ghedamsi, Sliding mode control of a dual-stator induction generator for wind energy conversion systems, Electrical Power and Energy Systems, Vol. 42, pp. 60-70, 2012.
A. Jidin, T. Sutikno, MATLAB/SIMULINK based analysis of voltage source inverter with space vector modulation,” TELKOMNIKA, Vol. 7, N0. 1, pp. 23 -30, April 2009.
S. El Aimanj, B. Francois, F. Minne, B. Robyns, Comparison analysis of control structures for variable speed wind turbine, In Proceedings of CESA, CD, Lille, France, July 2003.
M. Machmoum, F. Poitiers, Sliding mode control of a variable speed wind energy conversion system with DFIG, International Conference and Exhibition on Ecologic Vehicles and Renewable Energies, MONACO, March 26-29 (2009).
Y. Bekakra, D. Ben Attous, Sliding Mode Controls of Active and Reactive Power of a DFIG with MPPT for Variable Speed Wind Energy Conversion, Australian Journal of Basic and Applied Sciences, Vol. 5, N°. 12, pp. 2274-2286, 2011.
Y. Bekakra, D. Ben attous, A sliding mode speed and şux control of a doubly fed induction machine, Electrical and Electronics Engineering, IEEE Conference, pp. I-174 - L178, 2009.
M. Abid, A. Mansouri, A. Aissaoui, B. Belabbes, Sliding mode application in position control of an induction machine, J. Electr. Engin., V01. 59, N°. 6, pp. 322-327, 2008.
J. Lo, Y. Kuo, Decoupled fuzzy sliding mode control, IEEE Trans. Fuzzy Syst., V01. 6, N°. 3, pp. 426- 435, 1998.
_Z._.mxz>._._OZ>_. ._OC_»2>_. 9n xm2m<<>mrm mmeD< wmmm>xnI Aqq

There are 13 citations in total.

Details

Primary Language	English
Journal Section	Articles
Authors	Youcef Bekakra This is me Djilani Ben Attous This is me
Publication Date	September 1, 2012
Published in Issue	Year 2012 Volume: 2 Issue: 3

Cite

APA	Bekakra, Y., & Attous, D. B. (2012). Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy. International Journal Of Renewable Energy Research, 2(3), 471-476.
AMA	Bekakra Y, Attous DB. Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy. International Journal Of Renewable Energy Research. September 2012;2(3):471-476.
Chicago	Bekakra, Youcef, and Djilani Ben Attous. “Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy”. International Journal Of Renewable Energy Research 2, no. 3 (September 2012): 471-76.
EndNote	Bekakra Y, Attous DB (September 1, 2012) Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy. International Journal Of Renewable Energy Research 2 3 471–476.
IEEE	Y. Bekakra and D. B. Attous, “Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy”, International Journal Of Renewable Energy Research, vol. 2, no. 3, pp. 471–476, 2012.
ISNAD	Bekakra, Youcef - Attous, Djilani Ben. “Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy”. International Journal Of Renewable Energy Research 2/3 (September 2012), 471-476.
JAMA	Bekakra Y, Attous DB. Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy. International Journal Of Renewable Energy Research. 2012;2:471–476.
MLA	Bekakra, Youcef and Djilani Ben Attous. “Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy”. International Journal Of Renewable Energy Research, vol. 2, no. 3, 2012, pp. 471-6.
Vancouver	Bekakra Y, Attous DB. Comparison Study Between SVM and PWM Inverter in Sliding Mode Control of Active and Reactive Power Control of a DFIG for Variable Speed Wind Energy. International Journal Of Renewable Energy Research. 2012;2(3):471-6.