论文信息 - Post-outage reactive power flow calculations by genetic algorithms: constrained optimization approach

Post-outage reactive power flow calculations by genetic algorithms: constrained optimization approach

This paper presents genetic algorithm-based post-outage voltage and reactive power calculations for transmission line and transformer outages. Deficiencies of the traditional sensitivity-based (linear) methods are overcome by formulation of a line outage as nonlinear constrained optimization problem for a bounded network. The proposed optimization problem is later solved for bounded network variables by genetic algorithms. The accuracy of the method is tested on IEEE 14-bus and IEEE 57-bus test systems. Simulation results are compared both with the results of a full power flow study and with the results of the papers presented in the literature. The results have shown that the proposed method improves the accuracy of post-outage voltage and reactive power values with less computational effort.

[1] Mitsuo Gen,et al. Genetic Algorithms & Engineering Optimization , 2000 .

[2] Nanming Chen,et al. Distribution factors of reactive power flow in transmission line and transformer outage studies , 1992 .

[3] E. R. Pinch,et al. Optimal control and the calculus of variations , 1993 .

[4] Chanan Singh,et al. Branch outage simulation for MVAr flows: bounded network solution , 2003 .

[5] W. M. Grady,et al. A new model for outaging transmission lines in large electric networks , 1999 .

[6] Allen J. Wood,et al. Power Generation, Operation, and Control , 1984 .

[7] Zdzisław Denkowski,et al. Optimal Control and Calculus of Variations , 2003 .

[8] Mo-Shing Chen,et al. An Optimization Technique and Security Calculations for Dispatching Computers , 1972 .

[9] Seema Singh,et al. Improved voltage and reactive power distribution factors for outage studies , 1997 .

[10] Arun Phadke,et al. Redistribution of Reactive Power Flow in Contingency Studies , 1986, IEEE Transactions on Power Systems.

[11] William F. Tinney,et al. Iterative Linear AC Power Flow Solution for Fast Approximate Outage Studies , 1972 .