The aim of this paper is to present the complete modeling and simulation of a grid-connected brushless doubly fed induction generator (BDFG) for variable wind energy conversion is used to assess a maximum power point tracking MPPT strategy for different velocities. The decoupling control of active and reactive powers for BDFG has been developed using PI controllers. The performance of proposed stator power winding flux oriented vector control is examined. The complete system is simulated in the Matlab/Simulink environment and the computer simulation results obtained confirm the effectiveness and validity of MPPT strategy.
Helio Voltolini, Renato Carlson '' Grid Synchronization and Maximum Power Point Tracking for Wind Energy Generation System with Brushless Doubly Fed Induction Generator'' IEEE, Industrial Electronics Conference IECOM, pp.2173 – 2177,2008.
Wind-Power Generation System Huang Shoudao, Wang Yi, Wang Yaonan, Ren Guangfa, “Active and Reactive Power Control for Brushless Doubly-Fed Machine ‘Power Electronics and Motion Control Conference, 2004. IPEMC 2004. The 4th International
Qi Wang Xiaohu Chen and Yanchao Ji ‘’ Control for Maximal Wind Energy Tracing in Wind Brushless Doubly-Fed Power Generationon System Based Double Synchronous Coordinates’’. Proceeding of IEEE Industrial Electronics Conference, IECON 2006. [4] J.Poza , E.Oyarbide ,I.Sarasola M.Rodriguez M.Rodriguez ''Vector control design and experimental evaluation for the brushless doubly fed machine'' IET Electric Power Applications, July 2008.
Shiyi Shao,Ehsan Abdi and Richard McMaho’’ staor – flux –oriented vector for Brushless doubly fed induction generator’’ IEEE Transactions on Industry Electronics ,Vol.56,No.10,October 2009.
Zaskun Sarasola, Javier Poza ,Estanis Oyarbide ,Miguel Angel Rodriguez ''Stability Analysis of a Brushless Doubly-Fed Machine under Closed Loop Scalar Current Control'' Conference IECON , 2006. of Industrial Electronics
Huang Shoudao Wei Yan Lin Youjie Wang Yaonan ‘’fuzzy-based power factor control for brushless doubly- fed machines’’ Proceedings of the 4th World Congress on Intelligent Control and Automation, June 10-14, 2002, Shanghai. P.R.China.
Yong Liu, Lingzhi Yi, Xiaoyun Zhao ''Control of Brushless Doubly-fed Machine for Wind Power Generation Based on Two-stage matrix converter'' Proceedings of Power and Energy Engineering Conference, APPEEC 2009.
Longya Xu , Li Zhen and Eel-Hwan Kim ‘’ Field- Orientation Control of a Doubly Excited Brushless Reluctance Machine’’ IEEE Transactions on Industry Applications, Vol.34, No.1, January/ February 1998.
J.Poza,E.Oyarbide,D.Roye,andM.Rodriguez, “Unified reference frame dq model of the brushless doubly fed machine,” Proc.Inst.Elect. Eng.—Elect-Power Appl., vol. 153,no.5, pp.726–734,Sep. 2006.
J.Poza, E.Oyarbide ,and D.Roye,“New vector control For brushless doubly-fed machines,” in Proc .28th Annu, IEEE IECON, Nov. 2002, vol.2, pp .1138 –1143.
M.B.Mohamed, M.Jemli, M-Gossa, K. Jemli.'' Doubly fed induction generator (DFIG) in wind turbine modelling and power flow control ‘’ International Conference on Industrial Technology (ICIT) IEEE, 2004.
Dendouga, R. Abdessemed, M. L. Bendaas and A. Chaiba'' Decoupled Active and Reactive Power Control of a Doubly-Fed Induction Generator (DFIG). Proccedings of the 15th mediterrance conference on control & Automation, July, 2007.
Shi Jin, Fengge Zhang and Yongxin Li,''H Robust Control for VSCF Brushless Doubly-Fed Wind Power Generator System'' proceeding of the IEEE international Conference on Automation and logistics , pp. 471 – 475, 2009.
Fengge Zhang, Shi Jin and Xiuping Wang '' L2 Robust Control for Brushless Doubly-Fed Wind Power Generator '' proceeding of the IEEE international Conference on Automation and logistics, pp. 1335 – 1339.,2009.
Yong Liu, Lingzhi Yi, Hongbin Pan , Zhiyong Lan '' The simulation study for Brushless doubly-fed generator wind power system based on fuzzy control '' IEEE Power and Energy Engineer Conference APPEEC ,pp. 1 - 4 ,2010 .
D.Aouzellag, K.Ghedamsi, E.M.Berkouk '' Network Power Flow Control of Variable Speed Wind Turbine'' IEEE, Power Engineering ,Energy and Electrical Driver Conference, pp. 435 - 439 ,2007.
J.Poza,''Modélisation, conception et command d'une machine Asynchrone sans Balais Doublement Alimentee pour Ph.D.dissertation, Institute National Polytechnique de Grenoble, Oct.2003. a Vitesse Variable,”
P.C.Poberts,’’ A Study of Brushless Doubly-fed (induction) .Cambridge. U.K ,sep 2006.
Helio Voltolini, Renato Carlson '' Grid Synchronization and Maximum Power Point Tracking for Wind Energy Generation System with Brushless Doubly Fed Induction Generator'' IEEE, Industrial Electronics Conference IECOM, pp.2173 – 2177,2008.
Wind-Power Generation System Huang Shoudao, Wang Yi, Wang Yaonan, Ren Guangfa, “Active and Reactive Power Control for Brushless Doubly-Fed Machine ‘Power Electronics and Motion Control Conference, 2004. IPEMC 2004. The 4th International
Qi Wang Xiaohu Chen and Yanchao Ji ‘’ Control for Maximal Wind Energy Tracing in Wind Brushless Doubly-Fed Power Generationon System Based Double Synchronous Coordinates’’. Proceeding of IEEE Industrial Electronics Conference, IECON 2006. [4] J.Poza , E.Oyarbide ,I.Sarasola M.Rodriguez M.Rodriguez ''Vector control design and experimental evaluation for the brushless doubly fed machine'' IET Electric Power Applications, July 2008.
Shiyi Shao,Ehsan Abdi and Richard McMaho’’ staor – flux –oriented vector for Brushless doubly fed induction generator’’ IEEE Transactions on Industry Electronics ,Vol.56,No.10,October 2009.
Zaskun Sarasola, Javier Poza ,Estanis Oyarbide ,Miguel Angel Rodriguez ''Stability Analysis of a Brushless Doubly-Fed Machine under Closed Loop Scalar Current Control'' Conference IECON , 2006. of Industrial Electronics
Huang Shoudao Wei Yan Lin Youjie Wang Yaonan ‘’fuzzy-based power factor control for brushless doubly- fed machines’’ Proceedings of the 4th World Congress on Intelligent Control and Automation, June 10-14, 2002, Shanghai. P.R.China.
Yong Liu, Lingzhi Yi, Xiaoyun Zhao ''Control of Brushless Doubly-fed Machine for Wind Power Generation Based on Two-stage matrix converter'' Proceedings of Power and Energy Engineering Conference, APPEEC 2009.
Longya Xu , Li Zhen and Eel-Hwan Kim ‘’ Field- Orientation Control of a Doubly Excited Brushless Reluctance Machine’’ IEEE Transactions on Industry Applications, Vol.34, No.1, January/ February 1998.
J.Poza,E.Oyarbide,D.Roye,andM.Rodriguez, “Unified reference frame dq model of the brushless doubly fed machine,” Proc.Inst.Elect. Eng.—Elect-Power Appl., vol. 153,no.5, pp.726–734,Sep. 2006.
J.Poza, E.Oyarbide ,and D.Roye,“New vector control For brushless doubly-fed machines,” in Proc .28th Annu, IEEE IECON, Nov. 2002, vol.2, pp .1138 –1143.
M.B.Mohamed, M.Jemli, M-Gossa, K. Jemli.'' Doubly fed induction generator (DFIG) in wind turbine modelling and power flow control ‘’ International Conference on Industrial Technology (ICIT) IEEE, 2004.
Dendouga, R. Abdessemed, M. L. Bendaas and A. Chaiba'' Decoupled Active and Reactive Power Control of a Doubly-Fed Induction Generator (DFIG). Proccedings of the 15th mediterrance conference on control & Automation, July, 2007.
Shi Jin, Fengge Zhang and Yongxin Li,''H Robust Control for VSCF Brushless Doubly-Fed Wind Power Generator System'' proceeding of the IEEE international Conference on Automation and logistics , pp. 471 – 475, 2009.
Fengge Zhang, Shi Jin and Xiuping Wang '' L2 Robust Control for Brushless Doubly-Fed Wind Power Generator '' proceeding of the IEEE international Conference on Automation and logistics, pp. 1335 – 1339.,2009.
Yong Liu, Lingzhi Yi, Hongbin Pan , Zhiyong Lan '' The simulation study for Brushless doubly-fed generator wind power system based on fuzzy control '' IEEE Power and Energy Engineer Conference APPEEC ,pp. 1 - 4 ,2010 .
D.Aouzellag, K.Ghedamsi, E.M.Berkouk '' Network Power Flow Control of Variable Speed Wind Turbine'' IEEE, Power Engineering ,Energy and Electrical Driver Conference, pp. 435 - 439 ,2007.
J.Poza,''Modélisation, conception et command d'une machine Asynchrone sans Balais Doublement Alimentee pour Ph.D.dissertation, Institute National Polytechnique de Grenoble, Oct.2003. a Vitesse Variable,”
P.C.Poberts,’’ A Study of Brushless Doubly-fed (induction) .Cambridge. U.K ,sep 2006.
Serhoud, H., & Benattous, D. (2012). Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control. International Journal Of Renewable Energy Research, 2(2), 243-249.
AMA
Serhoud H, Benattous D. Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control. International Journal Of Renewable Energy Research. Haziran 2012;2(2):243-249.
Chicago
Serhoud, Hicham, ve Djilani Benattous. “Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control”. International Journal Of Renewable Energy Research 2, sy. 2 (Haziran 2012): 243-49.
EndNote
Serhoud H, Benattous D (01 Haziran 2012) Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control. International Journal Of Renewable Energy Research 2 2 243–249.
IEEE
H. Serhoud ve D. Benattous, “Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control”, International Journal Of Renewable Energy Research, c. 2, sy. 2, ss. 243–249, 2012.
ISNAD
Serhoud, Hicham - Benattous, Djilani. “Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control”. International Journal Of Renewable Energy Research 2/2 (Haziran 2012), 243-249.
JAMA
Serhoud H, Benattous D. Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control. International Journal Of Renewable Energy Research. 2012;2:243–249.
MLA
Serhoud, Hicham ve Djilani Benattous. “Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control”. International Journal Of Renewable Energy Research, c. 2, sy. 2, 2012, ss. 243-9.
Vancouver
Serhoud H, Benattous D. Maximal Wind Energy Tracing of Brushless Doubly-Fed Generator under Flux Oriented Vector Control. International Journal Of Renewable Energy Research. 2012;2(2):243-9.