Hybrid transient stability analysis of power systems having large penetration of doubly fed induction generator based wind energy conversion system
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References
- Cheng, Ming, and Ying Zhu. "The state of the art of wind energy conversion systems and technologies: A review." Energy Conversion and Management88 (2014): 332-347.
- Wu, Bin, et al. "Fixed-Speed Induction Generator WECS." Power Conversion and Control of Wind Energy Systems (2011): 173-189.
- Ackermann, Thomas, ed. Wind power in power systems. Vol. 140. Chichester, UK: John Wiley, 2005.
- Denny, Eleanor, and Mark O'Malley. "Wind generation, power system operation, and emissions reduction." Power Systems, IEEE Transactions on 21.1 (2006): 341-347.
- F. Blaabjerg and K. Ma, "Future on power electronics for wind turbine systems", IEEE J. Emerging Sel. Topics Power Electron., Vol. 1, No. 3, pp. 139-152, 2013
- Pavella, Mania, Damien Ernst, and Daniel Ruiz- Vega. Transient stability of power systems: a unified approach to assessment and control. Springer Science & Business Media, 2012.
- Qiao, Wei, and Ronald G. Harley. "Effect of grid-connected DFIG wind turbines on power system transient stability." Power and Energy Society General MeetingConversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE. IEEE, 2008.
- Lin, Li, et al. "Simulation and comparison of transient stability of power system including DFIGs wind farm based on the detailed model." Sustainable Power Generation and Supply, 2009. SUPERGEN'09. International Conference on. IEEE, 2009.
- Shi, Libao, et al. "Transient stability of power systems with high penetration of DFIG based wind farms." Power & Energy Society General Meeting, 2009. PES'09. IEEE. IEEE, 2009.
- Samarasinghe, C., and G. Ancell. "Effects of large-scale wind generation on transient stability of the New Zealand power system." Power and Energy Society General Meeting- Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE. IEEE, 2008.
- P. Kundur, "Evaluation of Methods for Studying Power System Stability." Proc of the International Symposium on Power System Stability , Ames, Iowa, 1985.
- P. Kundur, Power System Stability and Control, New York: EPRI,McGraw-Hill, 1994.
- L u Fang,Yu Ji-lai, “Transient stability analysis with equal area criterion directly used to a non-equivalent generator pair,” International Conference on Power Engineering, Energy and Electrical Drives, 2009. POWERENG’ 09., Lisbon, 18-20 Mrach 2009, pp. 386-389.
- G.A. Maria, C. Tang J. Kim,” HYBRID TRANSIENT STABILITY ANALY SIS,” IEEE Transactions on Power Systems, Vol. 5, No. 2, May 1990
- A . A . Fouad, et al ." Transient Stability Margin as a too1 for Dynamic Security Assessment," EPRI Report No. FL-1/55, March, 1981.
- Chiang, Hsiao-Dong, Felix F. Wu, and Pravin Varaiya. "Foundations of the potential energy boundary surface method for power system transient stability analysis." Circuits and Systems, IEEE Transactions on 35.6 (1988): 712-728.
- P. M. Anderson and A. A. Fouad,”Power System Control and Stability”.New York: IEEE Press, 1994.
- Toumi, B., Dhifaoui, R., Cutsem, Th. Van and Ribbens- Pavella, M. (1986), “Fast Transient Stability Assessment Revisited”, IEEE Transactions on Power Systems, v. PWRS-1, no. 2, pp. 211-219.
- Da-Zhong, Fang, T. S. Chung, and Zhang Yao. "Corrected transient energy function and its application to transient stability margin assessment."Advances in Power System Control, Operation and Management, 1997. APSCOM-97. Fourth International Conference on (Conf. Publ. No. 450). Vol. 1. IET, 1997.
- Esmaili, Masoud, Heidar Ali Shayanfar, and Nima Amjady. "Congestion management enhancing the transient stability of power systems." Applied Energy 87.3 (2010): 971981.
- ETAP version 12.6.0, Operation Technology Inc; 2014.