Title :
Stability constrained optimal power flow by inexact Newton method
Author :
Li, Rui ; Chen, Luonan ; Yokoyama, Ryuichi
Author_Institution :
Tokyo Metropolitan Univ., Japan
Abstract :
This paper focuses on proposing a new computational algorithm for OTS (optimal power flow with transient stability constraints) based on inexact Newton method, by exploiting the quadratic convergence rate of the Newton method. The OTS is essentially a nonlinear problem with infinite constraints which is not easy to solve exactly even for small-scale power systems. The proposed algorithm has the convergence rate as fast as the q-superlinear but method. It does not require exact evaluation of the Hessian matrices, thereby significantly reduces the computation time, making the OTS tractable even for the large scale power systems with a large number of transient stability constraints
Keywords :
Newton method; control system analysis; convergence of numerical methods; load flow control; optimal control; power system control; power system transient stability; computation time; computational algorithm; control simulation; inexact Newton method; optimal power flow; q-superlinear but method; quadratic convergence rate; small-scale power systems; transient stability constraints; Convergence; Load flow; Mathematical model; Newton method; Power system modeling; Power system reliability; Power system stability; Power system transients; Power systems; Stability analysis;
Conference_Titel :
Power Tech Proceedings, 2001 IEEE Porto
Conference_Location :
Porto
Print_ISBN :
0-7803-7139-9
DOI :
10.1109/PTC.2001.964709
