Abstract
In this chapter, the theoretical foundation of low-frequency oscillation (LFO) is introduced. With the increasing utilizations of measurement devices throughout the system, especially the construction of WAMS, the methods which are based on the measured data on-time or off-time have been paid more attention in last few years.
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References
Rogers G (2000) Power system oscillations. Kluwer Academic Publishers, Norwell. ISBN 0-7923-7712-5
DeMello FP, Corcordia C (1969) Concept of synchronous machine stability as affected by excitation control. IEEE Trans Power Appar Syst 88(4):316–329
Xu YH, ZH JB (2011) The resonance mechanism low frequency oscillations induced by nonlinear governor system. In: International conference on business management and electronic information (BMEI), 13–15 May 2011
Yu YP, Min Y, Chen L et al (2011) The disturbance source identification of forced power system oscillation caused by continuous cyclical load. In: International conference on electric utility deregulation and restructuring and power technologies (DRPT), 6–9 July 2011
Seydel R (2009) Practical bifurcation and stability analysis, 3rd edn. Springer, New York. ISBN 978-1-4419-1739-3
Wen XY (2005) A novel approach for identification and tracing of oscillatory stability and damping ratio margin boundaries. A Dissertation for PhD degree, Iowa State University
Prabha K (2004) Power system stability and control. McGraw-Hill, New York
Rogers G (2000) Power system oscillations. Kluwer
Klein M, Rogers GJ, Kundur P (1991) A fundamental study of inter-area oscillations. IEEE Trans. Power Syst 6:914–921
Kundur P (1993) Power system stability and control. McGraw-Hill, New York
Sadikovi’c R (2006) Use of FACTS devices for power flow control and damping of oscillations in power systems. PhD Dissertation, Swiss Federal Institute of Technology Zurich
Phadke AG, Thorp JS (2008) Synchronized phasor measurements and their applications. Springer, New York
Restrepo JQ (2005) A real-time wide-area control for mitigating small-signal instability in large electric power systems. A Dissertation for PhD degree, Washington State University
Trudnowski DJ, Johnson JM, Hauer JF (1998) SIMO system identification from measured ringdowns. In 1998 Proceedings of the American control conference, pp 2968–2972
Zemmour AI (2006) The Hilbert-Huang transform for damage detection in plate structures. A Dissertation for PhD degree, Master of Science
Turunen J (2011) A wavelet-based method for estimating damping in power systems. Doctoral Dissertations, Aalto University Publication Series
Huang NE, Shen Z, Long SR et al (1998) The empirical mode decomposition and the Hilbert spectrum for nonlinear and non-stationary time series analysis. Proc R Soc Lond A 454:903–995
Messina AR (2009) Inter-area oscillations in power systems: a nonlinear and non-stationary perspective. Springer, Berlin. ISBN 978-0-387-89529-1
Yuan ZY, Tao X, Zhang Y C et al (2010) Inter-area oscillation analysis using wide area voltage angle measurements from FNET. IEEE power and energy society general meeting 25–29 July 2010
Li W, Robert MG, Dong J Y et al (2009) Wide area synchronized measurements and inter-area oscillation study. IEEE/PES power systems conference and exposition (PSCE), 15–18 Mar 2009
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Li, Y., Yang, D., Liu, F., Cao, Y., Rehtanz, C. (2016). Theoretical Foundation of Low-Frequency Oscillations. In: Interconnected Power Systems. Power Systems. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-48627-6_2
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DOI: https://doi.org/10.1007/978-3-662-48627-6_2
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