Kanduru Lakshmi Neeharika, Siva Nageswara Rao M


The problem of fault estimation victimization adjective fault identity observer approach for a DFIG based totally essentially turbine device. This adjective fault estimation algorithmic application is planned to reinforce the quickness and accuracy overall performance of fault estimation. In specific, companion degree electric powered fault situation, the DFTG winding short circuit fault, is taken under consideration due to its excessive incidence costs. Supported the fault estimation records, a fault compensator is meant supported fault records furnished via the fault identification subject matter to ensure the stability of the device, and it consists of with a traditional controller to deliver a web fault compensation of winding contact faults. Finally, the implementation of the planned technique and consequently the results received from its application to the DFTG based definitely within the important wind turbine device square diploma bestowed parenthetically the performance of the deliberate method.


Wind Generator; DFIG; Short Circuit; Adaptive Observer; Fault Estimation; Fault Diagnosis; Fault Compensation;


C. Koroneos, T. Spachos, and N. Moussiopoulos, "Exergy evaluation of renewable strength resources, " Renewable Energy, vol. 28, trouble. 2, pp. 295-310, Feb 2003.

D. Gautam, V. Vittal, and T. Harbour, "Impact of elevated penetration of DFIG-based totally wind turbine generators on brief and little signal balance of electricity systems, " IEEE Trans. Power Syst., vol. 24, no. Three, pp. 1426-1434, Aug. 2009.

H. S. Ko, G. G. Yoon, and W. P. Hong, "Active use DFIG-based variable pace wind-turbine for voltage control in strength grid operation," J. Elect. Eng. Technol., vol. 3, no. 2, pp. 254-262, Jun. 2008.

J. Ekanayake, L. Holdsworth, N. Jenkins, "Control of DFIG wind mills, " Power Engineer, vol. 17, difficulty 1, pp. 28-32, Feb. 2003.

M. Tazil, V. Kumar, R. C. Bansal, S. Kong, Z. Y. Dong, W. Freitas, H. D. Mathur, "ThreePhase doubly fed induction turbines: Associate in a Nursing review, " lET Electr Power Appl., vol. 4, trouble. 2, pp. Seventy five 89, 2010.

W. Qian, W. Zhou, J. M. Aller, and R. G. Harley, "Wind pace estimation based by and large sensorless output most management for a wind turbine riding a DFIG, " IEEE Trans. Power Electron. Vol. 23, no. 3, May 2008.

V. F. Mendes, C. V. Sousa, S. R. Silva, B. C. Rabelo, and W. Hofmann, "Modeling and Ride Through control of Doubly Fed Induction Generators all through Symmetrical Voltage Sags, " IEEE Trans. Energy Convers, vol. 26, pp. 1161- 1171, Dec. 2011.

C. Wessels, F. Gebhardt, and F. W. Fuchs, "Fault experience-thru of a DFIG turbine the use of a dynamic voltage skilled worker in the course of symmetrical and asymmetrical grid faults, " IEEE Trans. Power lepton., vol. 26, no. Three, pp. 807-815, Mar. 2011.

J. Hu, H. Xu, and Y. He, "Coordinated control of DFIG's RSC and GSC below generalized unbalanced and distorted grid voltage conditions, " IEEE Trans. Ind. Electron., vol. 60, no. 7, pp. 2808-2819, Jul. 2013.

Kong, X.; Zhang, Z.; Yin, X. Study of Fault Current Characteristics of the DFIG Considering Dynamic Response of the RSC. IEEE Trans. Energy convert 2014, 29, 278- 287.

Full Text: PDF


  • There are currently no refbacks.

Copyright © 2012 - 2021, All rights reserved.|

Creative Commons License
International Journal of Innovative Technology and Research is licensed under a Creative Commons Attribution 3.0 Unported License.Based on a work at IJITR , Permissions beyond the scope of this license may be available at