• DocumentCode
    1756758
  • Title

    Compositional Transient Stability Analysis of Multimachine Power Networks

  • Author

    Caliskan, Sina Y. ; Tabuada, Paulo

  • Author_Institution
    Dept. of Electr. Eng., Univ. of California, Los Angeles, Los Angeles, CA, USA
  • Volume
    1
  • Issue
    1
  • fYear
    2014
  • fDate
    41699
  • Firstpage
    4
  • Lastpage
    14
  • Abstract
    During the normal operation of a power system, all the voltages and currents are sinusoids with a frequency of 60 Hz in America and parts of Asia or of 50 Hz in the rest of the world. Forcing all the currents and voltages to be sinusoids with the right frequency is one of the most important problems in power systems. This problem is known as the transient stability problem in the power systems literature. The classical models used to study transient stability are based on several implicit assumptions that are violated when transients occur. One such assumption is the use of phasors to study transients. While phasors require sinusoidal waveforms to be well defined, there is no guarantee that waveforms will remain sinusoidal during transients. In this paper, we use energy-based models derived from first principles that are not subject to hard-to-justify classical assumptions. In addition to eliminate assumptions that are known not to hold during transient stages, we derive intuitive conditions ensuring the transient stability of power systems with lossy transmission lines. Furthermore, the conditions for transient stability are compositional in the sense that one infers transient stability of a large power system by checking simple conditions for individual generators.
  • Keywords
    nonlinear control systems; power system transient stability; power transmission control; power transmission lines; America; Asia; compositional transient stability analysis; electromechanical systems; energy-based models; frequency 50 Hz; frequency 60 Hz; lossy transmission lines; multimachine power networks; nonlinear control system; power system dynamics; power system normal operation; power system stability; sinusoidal waveforms; Equations; Generators; Power system stability; Stability analysis; Transient analysis; Windings; Electromechanical systems; nonlinear control systems; power system dynamics; power system stability;
  • fLanguage
    English
  • Journal_Title
    Control of Network Systems, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    2325-5870
  • Type

    jour

  • DOI
    10.1109/TCNS.2014.2304868
  • Filename
    6732921