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An application of critical trajectory method to BCU problem for transient stability studies.(boundary controlling unstable)(Technical report)

This paper proposes a new method for obtaining controlling unstable equilibrium point (CUEP) for transient stability analysis in electric power systems. A minimization problem is formulated to attain CUEP by applying the critical trajectory (CTrj) method to the boundary controlling unstable equilibr... Full description

Journal Title: IEEE Transactions on Power Systems Nov, 2013, Vol.28(4), p.4237(8)
Main Author: Yorino, N.
Other Authors: Popov, E. , Zoka, Y. , Sasaki, Y. , Sugihara, H.
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: ISSN: 0885-8950
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recordid: gale_ofa356058288
title: An application of critical trajectory method to BCU problem for transient stability studies.(boundary controlling unstable)(Technical report)
format: Article
creator:
  • Yorino, N.
  • Popov, E.
  • Zoka, Y.
  • Sasaki, Y.
  • Sugihara, H.
subjects:
  • Stability (Physics) -- Analysis
  • Electric Power Systems -- Innovations
  • Optimization Theory -- Usage
  • Numerical Analysis -- Usage
ispartof: IEEE Transactions on Power Systems, Nov, 2013, Vol.28(4), p.4237(8)
description: This paper proposes a new method for obtaining controlling unstable equilibrium point (CUEP) for transient stability analysis in electric power systems. A minimization problem is formulated to attain CUEP by applying the critical trajectory (CTrj) method to the boundary controlling unstable equilibrium point (BCU) method. CTrj method is a unique approach proposed by the authors to obtain critical condition for transient stability problem. The Proposed method simultaneously computes a trajectory on the stability boundary starting from the exit point reaching CUEP. The effectiveness of the method is demonstrated through simulations for various systems.
language: English
source:
identifier: ISSN: 0885-8950
fulltext: fulltext
issn:
  • 0885-8950
  • 08858950
url: Link


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titleAn application of critical trajectory method to BCU problem for transient stability studies.(boundary controlling unstable)(Technical report)
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identifierISSN: 0885-8950
subjectStability (Physics) -- Analysis ; Electric Power Systems -- Innovations ; Optimization Theory -- Usage ; Numerical Analysis -- Usage
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descriptionThis paper proposes a new method for obtaining controlling unstable equilibrium point (CUEP) for transient stability analysis in electric power systems. A minimization problem is formulated to attain CUEP by applying the critical trajectory (CTrj) method to the boundary controlling unstable equilibrium point (BCU) method. CTrj method is a unique approach proposed by the authors to obtain critical condition for transient stability problem. The Proposed method simultaneously computes a trajectory on the stability boundary starting from the exit point reaching CUEP. The effectiveness of the method is demonstrated through simulations for various systems.
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