A solution of optimal power flow with multicontingency transient stability constraints

Author

Yuan, Yue ; Kubokawa, Junji ; Sasaki, Hiroshi

Author_Institution

Dept. of Electr. Eng., Hiroshima Univ., Japan

Volume

18

Issue

3

fYear

2003

Firstpage

1094

Lastpage

1102

Abstract

This paper presents a formulation of the multicontingency transient stability constrained optimal power flow (MC-TSCOPF) problem and proposes a method to solve it. In the MC-TSCOPF formulation, this paper introduces a modified formulation for integrating transient stability model into conventional OPF, which reduces the calculation load considerably. In our MC-TSCOPF solution, the primal-dual Newton interior point method (IPM) for nonlinear programming (NLP) is adopted. Computation results on the IEEJ WEST10 model system demonstrate the effectiveness of the presented MC-TSCOPF formulation and the efficiency of the proposed solution approach. Moreover, based on quite convincing simulation results, some phenomena occurred when considering multicontingency are elaborated.

Keywords

Newton method; load flow; nonlinear programming; power system transient stability; IEEJ WEST10 model system; calculation load; multicontingency transient stability constraints; nonlinear programming; optimal power flow; primal-dual Newton interior point method; transient stability model; Differential equations; Load flow; Power generation; Power system modeling; Power system security; Power system stability; Power system transients; Reactive power; Rotors; Voltage;

fLanguage

English

Journal_Title

Power Systems, IEEE Transactions on

Publisher

ieee

ISSN

0885-8950

Type

jour

DOI

10.1109/TPWRS.2003.814856

Filename

1216151