International Journal of Renewable Energy Research-IJRER

The production of wind generation has expanded considerably today. The main problem with wind generation system is to regulate the voltage at wind turbine terminals even under abnormal grid conditions.This is mainly as a result of consumption of non active power from the grid during grid disturbances. This paper investigates an improved Synchronous Reference Frame control; Dual Decouple Synchronous Reference Frame (DDSRF) based control for Dynamic Voltage Restorer (DVR) to upgrade the dynamic response of wind energy system. The proposed method uses  DDSRF PLL for extracting clean grid voltage and  phase angle even under adverse grid conditions. The proposed control scheme provides the ability for fixed speed wind generator to ride through under voltage interruptions in the grid to meet the latest grid codes. The proposed control is competent of stabilising  the voltage at the wind turbine terminals under symmetrical sag/swell and asymmetrical fault conditions. simulation studies have been peformed in MATLAB/SIMULINK to manifest the effectiveness of proposed control strategy

Dynamic voltage restorer (DVR); Low Voltage Ride Through Capability (LVRT);Point of Interconnection (POI);Dual Decouple Synchronous reference frame control technique (DDSRFT).

D. Ramirez, S Martinez, C.A Platero, F. Blazquez, R.M.de Castro, “Low-Voltage Ride-Through Capability for wind Generators based on Dynamic Voltage Restorersâ€, IEEE Trans. Energy Convers,vol. 26,no.1, pp.195-203,2011.

L. B SHI, C.WANG, L.YAO, Z.WANG, “Analysis of Impact of Grid-Connected Wind Power on Small Signal Stability, Wind Energyâ€,vol. 14,pp. 517–537,2011.

P. Flannery, G.Venkataramanan, “Unbalanced Voltage Sag Ride-Through of a Doubly Fed Induction Generator Wind Turbine with Series Grid Side Converterâ€, in:proc. Of IEEE Industry Applications Society Annual Meeting, IAS, pp.1-8,2008.

D.Santos-Martin, J.L.Rodriguez-Amenedo, S Arnaltes, “Providing ride-through capability to a doubly fed induction generator under unbalanced voltage dipsâ€, IEEE Transactions on Power Electronics, vol.24,no.7, pp.1747-1757,2009.

S.M Muyeen,. R. Takahashi, Murata, T. J. Tamura, “A Variable Speed Wind Turbine Control Strategy to Meet Wind Farm Grid Code Requirementsâ€, IEEE Transactions on Power Systems, vol.25,no.1, pp. 331-340,2010.

G. Chicco, M. Molinas, T. Undeland, and G. Viglietti, “Improvement of the transient stability margin in wind systems with a STATCOMâ€, in: Proc. Of VI World Energy Syst. Conf., Torino, Italy, pp. 371–376,2006.

M. Molinas, J. A. Suul, and T. Undeland, “Low voltage ride through of wind farms with cage generators: STATCOM versus SVC,†IEEE Trans.Power Electron.,.vol.23,no.3, pp. 1104-1117,2008.

C. Han, A. Q. Huang, M. E. Baran, S. Bhattacharya, W. Litzenberger,L. Anderson, A. L. Johnson, and A. Edris, “STATCOM impact study on the integration of a large wind farm into a weak loop power systemâ€, IEEE Trans. Energy Convers., vol.23,no.1, pp. 226-233,2008.

M. Molinas, J. Are Soul, and T. Undeland, “Low voltage ride through of wind farms with cage generators: STATCOM versus SVCâ€, IEEE Trans. Power Electron.,vol.23 ,no.3, pp.1104-1117,2008.

N. G. Hingorani, “Introducing custom power,†IEEE Spectr,vol. 32,no.6, pp. 41-48,1995.

J. G. Nielsen, F. Blaabjerg, and N. Mohan, “Control strategies for dynamic voltage restorer compensating voltage sags with phase jumpâ€, in: Proc. Of IEEE APEC’01, pp.1267–1273,2001.

S. Lee, H. Kim, S. K. Sul, and F. Blaabjerg, “A novel control algorithm for static series compensation by use of PQR instantaneous power theoryâ€, IEEE Trans. Power Electron.,vol.19,no.3, pp. 814-827,2004.

M. J. Newman, D. G. Holmes, J. G. Nielsen, and F. Blaabjerg, “A dynamic voltage restorer (DVR) with selective harmonic compensation at medium voltage levelâ€, in:Conf. of IEEE-IAS Annu. Meeting, pp. 1228–1235,2003.

A. Ghosh and A. Joshi, “A new algorithm for the generation of reference voltages of a DVR using the method of instantaneous symmetrical components,†IEEE Power Eng. Rev.vol.,22,no.1, pp. 63-65,2002.

J. G. Nielsen and F. Blaabjerg, “A detailed comparison of system topologies for dynamic voltage restorers, IEEE Trans. Ind. Appl.,vol.41,no.5, pp.1272-1280,2005.

I.-Y. Chung, D.-J. Won, S.-Y. Park, S.-I. Moon, and J.-K. Park, “The DC link energy control method in dynamic voltage restorer systemâ€, Int. J. Elect. Power Energy Syst.vol. 25,no.7, pp.525-531,2003.

E. C. Aeloíza, P. N. Enjeti, L. A. Morán, O. C. Montero-Hernandez, and S. Kim, “Analysis and design of a new voltage sag compensator for critical loads in electrical power distribution systems,†IEEE Trans. Ind. Appl. Vol.39,no.4, pp.1143-1150,2003.