References
- Achilles, S. and M. Poller. 2013. Direct drive synchronous machine models for stability assessment of wind farms. Available at http://www.digsilent.de/tl_files/digsilent/files/…/DirectDrive_ Modeling.pdf.
- Amelian, M., R. Hooshmand, and A. Khodabakhshian. 2013. Small signal stability improvement of a wind turbine-based doubly fed induction generator in a microgrid environment. 3rd International Conference on Computer and Knowledge Engineering (ICCKE 2013), Ferdowsi University of Mashhad, Mashhad, Oct. 31- and Nov. 1: 384–89.
- Babu, B. C. and K. B. Mohanty. 2010. Doubly-fed induction generator for variable speed wind energy conversion systems - Modeling and Simulation. International Journal of Computer and Electrical Engineering 2:141–47.
- Bu, S. Q., W. Du, H. F. Wang, Z. Chen, L. Y. Xiao, and H. F. Li. 2002. Probabilistic analysis of small signal stability of large-scale power systems as affected by penetration of wind generation. IEEE Transactions on Power Systems 27:762–70.
- Elkington, K., V. Knazkins, and M. Ghandhar. 2007. On the rotor angle stability of power systems with doubly fed induction generators. IEEE Lausanne on Power Technology. Stockholm, Sweden, July 1–5.
- Fernandez, R. D., R. J. Mantz, and P. E. Battaiotto. 2007. Impact of wind farms on a power system. an eigenvalue analysis approach. Renewable Energy 32:1676–88.
- Gautam, D. and V. Vittal. 2009. Impact of DFIG-based wind turbine generators on transient and small signal stability of power systems. IEEE Power & Energy Society General Meeting. USA, July 26–30.
- Gautam, D., V. Vittal, and T. Harbour. 2009. Impact of increased penetration of DFIG-based wind turbine generators on transient and small signal stability of power systems. IEEE Transactions on Power Systems 23:1426–34.
- Huang, G. M. and V. Krishnaswamy. 2002. HVDC controls for power system stability. IEEE Power Engineering Society Summer Meeting, Chicago, IL, USA, July 25, 1:597–02.
- Jafarian, M. and A. M. Ranjbar. 2012. Interaction of the dynamics of doubly fed wind generators with power system electromechanical oscillations. IET Renewable Power Generation 7:89–97.
- Kong, S. Y., R. C. Bansal, and Z. Y. Dong. 2012. Comparative small-signal stability analyses of PMSG-, DFIG- and SCIG-based wind farms. International Journal of Ambient Energy 33:87–97.
- Kundur, P. 1994. Power System Stability and Control. McGraw-Hill Education (India) Pvt. Limited.
- Mehta, B., P. Bhatt, and V. Pandya. 2014. Small signal stability analysis of power systems with DFIG based wind power penetration. International Journal of Electrical Power and Energy Systems 58:64–67.
- Milano, F. 2012. PSAT, Matlab based Power System Analysis Toolbox. Available at http://www.power. uwaterloo.ca/~fmilanno.
- Modi, N., T. Saha, and N. Mithulananthan. 2011. Effect of wind farms with doubly fed induction generators on small signal stability-a case study on Australian equivalent system. IEEE PES Conference on Innovative Smart Grid Technologies Asia (ISGT), Perth, Australia, November 13–16.
- Nafeh, A. A. 2011. Optimal Economical Sizing of A PV-Wind Hybrid Energy System Using Genetic Algorithm. International Journal of Green Energy 8:25–43.
- Nguyen-Mau, C., K. Rudion, and Z. A. Styczynski. 2011. HVDC Application for enhancing power system stability. EPU- CRIS International Conference on Science and Technology. Germany, November 16.
- Prasertwong, K., N. Mithulananthan, and D. Thakur. 2010. Understanding low frequency oscillation in power systems. International Journal of Electrical Engineering Education 47:248–62.
- Polinder, H., F. F. A. Van der Pijl, G. J. de Vilder, and P. Tavner. 2005. Comparison of direct-drive and geared generator concepts for wind turbines. IEEE International Conference on Electric Machines and Drives, May 15.
- Slootweg, J. G. 2003. Wind power, modeling and impact on power system dynamics. Ph.D. Thesis, Power Systems Laboratory, Delft University of Technology, Delft, Netherlands.
- Stiebler, M. 2008. Wind Energy Systems for Electric Power Generation. Springer-Verlag, Berlin, Heidelberg.
- Tsourakis, G., B. M. Nomikos, and C. D. Vournas. 2009. Contribution of doubly fed wind generators to oscillation damping. IEEE Transactions on Energy Conversion 24:783–91.
- University of Washington Electrical Engineering. 2013. Power System Test Case Archive. Available at http://www.ee.washington.edu/research/pstca.
- Vami, M. U. and P. V. R. Rao 2010. Damping effects of supplementary control signals for enhancement of transient stability in AC-DC power systems. International Journal of Engineering Science and Technology 2:3084–92.
- Wu, F., X. P. Zhang, and P. Ju. 2009. Small Signal stability and control of the wind turbine with the direct-drive permanent magnet generator integrated to the grid. Electric Power Systems Research 29:1661–67.
- Yuanzhang, S., W. Lixin, L. Guojie, and L. Jin. 2010. A Review on analysis and control of small signal stability of power systems with large scale integration of wind power. International Conference on Power System Technology (POWERCON). China, October 24–28.