Title :
Optimum steady-state load-shedding scheme using genetic based algorithm
Author :
AL-Hasawi, Wael M. ; El Naggar, K.M.
Author_Institution :
College of Technological studies, Kuwait
Abstract :
This paper presents a new application of genetic algorithms (GAs) optimization technique for solving the steady state load-shedding problem. The objective is to minimize the sum of the squares of the difference between the connected active and reactive load and the supplied active and reactive power. The equality constraints associated with the problem of load shedding are the power flow equations. The inequality constraints are the voltage magnitudes and angles, active and reactive power generations and the limits on the line flows. The proposed method is tested on the IEEE 14- and 30-bus systems. The effects of GAs parameters and operators, such as population size, crossover mutation probabilities, niching and fitness function, are studied. The results are reported and compared with the results of two earlier approaches.
Keywords :
genetic algorithms; load flow; load management; load shedding; reactive power; IEEE 14bus systems; IEEE 30bus systems; connected active and reactive load; crossover; equality constraints; fitness function; genetic based algorithm; inequality constraints; line flow limits; load management; mutation probabilities; niching; optimum steady-state load-shedding scheme; population size; power flow equations; supplied active power; supplied reactive power; Equations; Frequency; Genetic algorithms; Load flow; Power generation; Power system modeling; Reactive power; Steady-state; System testing; Voltage;
Conference_Titel :
Electrotechnical Conference, 2002. MELECON 2002. 11th Mediterranean
Print_ISBN :
0-7803-7527-0
DOI :
10.1109/MELECON.2002.1014664
