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Modelling and stability analysis of switching impulsive power systems with multiple equilibria

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  • Liying Zhu
  • Jianbin Qiu
  • Mohammed Chadli

Abstract

This paper tries to model power systems accompanied with a series of faults in the form of switched impulsive Hamiltonian systems (SIHSs) with multiple equilibria (ME) and unstable subsystems (US), and then analyze long-term stability issues of the power systems from the viewpoint of mathematics. According to the complex phenomena of switching actions of stages and generators, impulses of state, and existence of multiple equilibria, this paper first introduces an SIHS with ME and US to formulate a switching impulsive power system composed of an active generator, a standby generator, and an infinite load. Then, based on special system structures, a unique compact region containing all ME is determined, and novel stability concepts of region stability (RS), asymptotic region stability (ARS), and exponential region stability (ERS) are defined for such SIHS with respect to the region. Third, based on the introduced stability concepts, this paper proposes a necessary and sufficient condition of RS and ARS and a sufficient condition of ERS for the power system with respect to the region via the maximum energy function method. Finally, numerical simulations are carried out for a power system to show the effectiveness and practicality of the obained novel results.

Suggested Citation

  • Liying Zhu & Jianbin Qiu & Mohammed Chadli, 2017. "Modelling and stability analysis of switching impulsive power systems with multiple equilibria," International Journal of Systems Science, Taylor & Francis Journals, vol. 48(16), pages 3470-3490, December.
  • Handle: RePEc:taf:tsysxx:v:48:y:2017:i:16:p:3470-3490
    DOI: 10.1080/00207721.2017.1385874
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