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The Comparative Study between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG

Year 2015, Volume: 5 Issue: 3, 757 - 765, 01.09.2015

Abstract

This study analyses the performance between back to back and the matrix converters used through wind power system based on double fed induction generator (DFIG). The aim of this comparison is to design which converter is well exploiting wind power generation. It is defined as a comparison for each topology in controls, current quality generated by the DFIG and power losses in converters, every part is given in details with its simulation result. These last show that the better performances are obtained when DFIG is fed by the matrix converter.

References

  • M. Mansour, M.N. Mansouri, M.F. Mmimouni. “Study and Control of a Variable-speed Wind-Energy System Connected to the Grid ”. International Journal of Rewenable Energy Research. vol 1, pp 96-104, 2011. (Article)
  • RC Portillo. ;MM Prats, J.I Leon;J.A Sanchez, J.M Carrasco,E Galvan, and LG Franquelo, “Modeling Strategy for Back-to-Back Three-Level Converters Applied to High-Power Wind Turbines”. IEEE Transactions on industrial electronics, Vol 53. pp.1483-1491, 2006. (Article)
  • E.J Bueno,.S Cobreces,. F.J Rodriguez, A Hernandez, and F Espinosa. “Design of a Back-to-Back NPC Converter Interface for Wind Turbines With Squirrel- Cage Induction Generator”. IEEE Transactions on Energy conversion, vol 23 (no.3): p.932-945. 2008. (Article) [4] R Pena, JC Clare generator using fed converters and its application to variable-speed wind- energy generation”. IEE Proceedings-electrical power applications, vol 143 (no.3): p. 231-241. 2002. (Article)
  • Lee JH, Jeong JK, Han BM, Choi NS and Cha HJ. “DFIG Wind Power System with a DDPWM Controlled Matrix Converter”. Journal of Electrical Engineering & 2010.(Article)
  • K.E. Okedu. “matrix converter control for DFIG”. IEEE International Conference on Emerging & sustainable Technologies for Power & ICT in a Developing Society. Owerri, (Conference Paper) 14-16 November 2013.
  • R Cárdenas, R Pena, P Wheeler, J Clare,A Munoz and A, Sureda “A. Control of a wind generation system based on a Brushless Doubly-Fed Induction Generator fed by a matrix converter”. Electric Power System Reaserch, Vol 103, pp 49– 60, 2013.(Article)
  • L Zhang, C Watthanasarn “A Matrix Converter Excited Double-Fed Induction Machine as a Wind Power Generator” 7th International Conference on Power Electronics and Variable Speed Drives, London, pp. 532-537, 21-23 September 1998. (Conference Paper).
  • P Delarue, C Rombaut, G Suegier. les convertisseurs de l’électronique de puissance la conversion alternatif- alternatif, 3rd ed. vol 2 ”,. TEC&DOC Lavoisier, 2006,pp 325-356.(Book)
  • H Altun, S Sunter .Modeling, simulation and control of wind turbine driven doubly-fed induction generator with matrix converter on the rotor side. Electrical Eengineering-Springer. Vol 95, pp. 157-170, 2013. (Article).
  • A.Moualdia, MO Mahoudi, L Nezli, and O Bouchhida.“Modelling and Control of Wind Power Conversion System Based on the Double fed Asynchronous generator”. International Journal of Rewenable Energy Research. vol 2, pp 300-306, 2012. (Article).
  • A Nazari, H Heydari. “A Survey on Different Direct Power Control Algorithms of DFIGs.” 2nd Power Electronics, Conference, Tehran, pp 10-14, 16-17 February 2011. (Conference Paper). and Technologies
  • B Metidji,N Taib,L Baghli,T Rekioua, and S Bacha: “Novel Single Current Sensor Topology for Venturini Controlled Transactions on Power Electronics. Vol 28, pp. 3509 – 3516, 2013,(Article) Converters” IEEE
  • M Apap; JC Clare, PW Wheeler, M Bland and K Bradley. “Comparison of losses in matrix converters and voltage source inverters.” Matrix converters, IEE Seminar, pp. 4/1-4/6, 1 April 2003. (Conference Paper).
  • S Lefebvre, F Miserey. Composants a semi-conducteur pour l’electronique de puissance.1st ed. Paris, France : TEC&DOC Lavoisier: 2004. (Book)
Year 2015, Volume: 5 Issue: 3, 757 - 765, 01.09.2015

Abstract

References

  • M. Mansour, M.N. Mansouri, M.F. Mmimouni. “Study and Control of a Variable-speed Wind-Energy System Connected to the Grid ”. International Journal of Rewenable Energy Research. vol 1, pp 96-104, 2011. (Article)
  • RC Portillo. ;MM Prats, J.I Leon;J.A Sanchez, J.M Carrasco,E Galvan, and LG Franquelo, “Modeling Strategy for Back-to-Back Three-Level Converters Applied to High-Power Wind Turbines”. IEEE Transactions on industrial electronics, Vol 53. pp.1483-1491, 2006. (Article)
  • E.J Bueno,.S Cobreces,. F.J Rodriguez, A Hernandez, and F Espinosa. “Design of a Back-to-Back NPC Converter Interface for Wind Turbines With Squirrel- Cage Induction Generator”. IEEE Transactions on Energy conversion, vol 23 (no.3): p.932-945. 2008. (Article) [4] R Pena, JC Clare generator using fed converters and its application to variable-speed wind- energy generation”. IEE Proceedings-electrical power applications, vol 143 (no.3): p. 231-241. 2002. (Article)
  • Lee JH, Jeong JK, Han BM, Choi NS and Cha HJ. “DFIG Wind Power System with a DDPWM Controlled Matrix Converter”. Journal of Electrical Engineering & 2010.(Article)
  • K.E. Okedu. “matrix converter control for DFIG”. IEEE International Conference on Emerging & sustainable Technologies for Power & ICT in a Developing Society. Owerri, (Conference Paper) 14-16 November 2013.
  • R Cárdenas, R Pena, P Wheeler, J Clare,A Munoz and A, Sureda “A. Control of a wind generation system based on a Brushless Doubly-Fed Induction Generator fed by a matrix converter”. Electric Power System Reaserch, Vol 103, pp 49– 60, 2013.(Article)
  • L Zhang, C Watthanasarn “A Matrix Converter Excited Double-Fed Induction Machine as a Wind Power Generator” 7th International Conference on Power Electronics and Variable Speed Drives, London, pp. 532-537, 21-23 September 1998. (Conference Paper).
  • P Delarue, C Rombaut, G Suegier. les convertisseurs de l’électronique de puissance la conversion alternatif- alternatif, 3rd ed. vol 2 ”,. TEC&DOC Lavoisier, 2006,pp 325-356.(Book)
  • H Altun, S Sunter .Modeling, simulation and control of wind turbine driven doubly-fed induction generator with matrix converter on the rotor side. Electrical Eengineering-Springer. Vol 95, pp. 157-170, 2013. (Article).
  • A.Moualdia, MO Mahoudi, L Nezli, and O Bouchhida.“Modelling and Control of Wind Power Conversion System Based on the Double fed Asynchronous generator”. International Journal of Rewenable Energy Research. vol 2, pp 300-306, 2012. (Article).
  • A Nazari, H Heydari. “A Survey on Different Direct Power Control Algorithms of DFIGs.” 2nd Power Electronics, Conference, Tehran, pp 10-14, 16-17 February 2011. (Conference Paper). and Technologies
  • B Metidji,N Taib,L Baghli,T Rekioua, and S Bacha: “Novel Single Current Sensor Topology for Venturini Controlled Transactions on Power Electronics. Vol 28, pp. 3509 – 3516, 2013,(Article) Converters” IEEE
  • M Apap; JC Clare, PW Wheeler, M Bland and K Bradley. “Comparison of losses in matrix converters and voltage source inverters.” Matrix converters, IEE Seminar, pp. 4/1-4/6, 1 April 2003. (Conference Paper).
  • S Lefebvre, F Miserey. Composants a semi-conducteur pour l’electronique de puissance.1st ed. Paris, France : TEC&DOC Lavoisier: 2004. (Book)
There are 14 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Abdelkarim Chemidi This is me

Sidi Mohammed Meliani This is me

Mohamed Choukri Benhabib This is me

Publication Date September 1, 2015
Published in Issue Year 2015 Volume: 5 Issue: 3

Cite

APA Chemidi, A., Meliani, S. M., & Benhabib, M. C. (2015). The Comparative Study between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG. International Journal Of Renewable Energy Research, 5(3), 757-765.
AMA Chemidi A, Meliani SM, Benhabib MC. The Comparative Study between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG. International Journal Of Renewable Energy Research. September 2015;5(3):757-765.
Chicago Chemidi, Abdelkarim, Sidi Mohammed Meliani, and Mohamed Choukri Benhabib. “The Comparative Study Between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG”. International Journal Of Renewable Energy Research 5, no. 3 (September 2015): 757-65.
EndNote Chemidi A, Meliani SM, Benhabib MC (September 1, 2015) The Comparative Study between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG. International Journal Of Renewable Energy Research 5 3 757–765.
IEEE A. Chemidi, S. M. Meliani, and M. C. Benhabib, “The Comparative Study between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG”, International Journal Of Renewable Energy Research, vol. 5, no. 3, pp. 757–765, 2015.
ISNAD Chemidi, Abdelkarim et al. “The Comparative Study Between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG”. International Journal Of Renewable Energy Research 5/3 (September 2015), 757-765.
JAMA Chemidi A, Meliani SM, Benhabib MC. The Comparative Study between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG. International Journal Of Renewable Energy Research. 2015;5:757–765.
MLA Chemidi, Abdelkarim et al. “The Comparative Study Between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG”. International Journal Of Renewable Energy Research, vol. 5, no. 3, 2015, pp. 757-65.
Vancouver Chemidi A, Meliani SM, Benhabib MC. The Comparative Study between Back to Back and the Matrix Structure for the Wind Turbine Based on DFIG. International Journal Of Renewable Energy Research. 2015;5(3):757-65.