Himani and Ratna Dahiya


  1. [1] R.M. Kamel, Effect of wind generation system types on Micro-Grid (MG) fault performance during both standalone and grid connected modes, Energy Conversion and Management, 79, Mar. 2014, 232–245.
  2. [2] P.J. Tavner, S. Faulstich, B. Hahn, and G.J.W. van Bussel, Reliability & availability of wind turbine electrical & electronic components, European Power Electronics Journal, 20(4), 2011, 597–601.
  3. [3] J. Ribrant and L. Bertling, Survey of failures in wind power systems with focus on Swedish wind power plants during 1997–2005, IEEE Power Engineering Society General Meeting, 22, 2007, 167–173.
  4. [4] I. Attoui and A. Omeiri, Modeling, control and fault diagnosis of an isolated wind energy conversion system with a self-excited induction generator subject to electrical faults, Energy Conversion and Management, 82, 2014, 11–26.
  5. [5] H. Garg and R. Dahiya, Modeling and development of wind turbine emulator for the condition monitoring of wind turbine, International Journal of Renewable Energy Research, 5(2), 2015, 591–597.
  6. [6] J.M. Nye, J.G. de la Bat, M.A. Khan, and P. Barendse, Design and implementation of a variable speed wind turbine emulator, Electrical Machines (ICEM),IEEE 2012 XXth International Conference, Sep. 2012, 2060–2065.
  7. [7] Y. Zou, M. Elbuluk, and Y. Sorez, Simulation comparisons and implementation of induction generator wind power systems, IEEE Transaction on Industrial Applications, 49(3), June 2013, 1119–1128.
  8. [8] L. Guangchen, W. Shengtie, and Zhang Jike, Design and realization of DC motor and drives based simulator for small wind turbine, IEEE Power and Energy Engineering Conference (APPEEC), 2010 Asia-Pacific, March 2010, 1–4.
  9. [9] A. Mahdy, S.M. El-Hakim, ;nd H.H. Hanafy, Small wind turbine emulator with separately excited DC motor using analog electronic circuit, IEEE IET Conference on Renewable Power Generation (RPG 2011), Sept. 2011, 1–6.
  10. [10] T. Hardy and W. Jewell, Emulation of a 1.5 MW Wind Turbine with a DC Motor, IEEE Power & Energy Society General Meeting, July 2011, 1–8.
  11. [11] L. Barote, C. Marinescu, and M. N. Cirstea, Control structure for single-phase stand-alone wind-based energy sources, IEEE Transactions on Industrial Electronics, 60(2), Feb. 2013, 764–772.
  12. [12] W. Yang, P.J. Tavner, C.J. Crabtree, Y. Feng, and Y. Qiu, Wind turbine condition monitoring: technical and commercial challenges, Wind Energy, 17(5), 2014, 673–693.
  13. [13] W. Yang, P.J. Tavner, C.J. Crabtree, and M. Wilkinson, Cost-effective condition monitoring for wind turbines, IEEE Trans. Ind. Electron, 57(1), Jan. 2010, 263–271.
  14. [14] A.S. Satpathy, N.K. Kishore, and N.C. Sahoo, Emulation of WT characteristics based on separately excited DC motor using LabVIEW, Proceedings of CCEE, IISc Bangalore, Dec. 2011, 235–240.
  15. [15] D. Seyoum, C. Grantham, and M. F. Rahman The dynamic characteristics of an isolated self-excited induction generator driven by a wind turbine, IEEE Transaction on Industrial Electronics Energy Conversion, 39(24), July/August 2003.
  16. [16] B. Singh, S.S. Murthy, and S. Gupta, Analysis and design of electronic load controller for self-excited induction generators, Energy Conversion, IEEE Transactions, 21(1), 2006, 285–293.
  17. [17] A. Tiwari, S. Murthy, B. Singh, and L. Shridhar, Design-based performance evaluation of two-winding capacitor self-excited single-phase induction generator, Electric Power Systems Research, 67(2), 2003, 89–97.

Important Links:

Go Back