Power system economical operation consists of two aspects: active power regulation and reactive power dispatch. This multiobjective optimization problem is solved in this p < /strong>ap < /strong>er as two subproblems: P- and Q-problems. The solution is applied to an EEE 14-bus system using Genetic Algorithm (GA). Additionally, An exciter system lead-lag controller and feedback compensator parameters are also optimally selected using GA.
El-Desouki, H., El-Zonkoly, A., & Aly, G. (2021). Optimal Active and Reactive Power Dispatch and Excitation System Controller Design Using Genetic, Algorithm.. MEJ- Mansoura Engineering Journal, 28(2), 1-16. doi: 10.21608/bfemu.2021.141136
MLA
H. El-Desouki; Amany El-Zonkoly; G. Aly. "Optimal Active and Reactive Power Dispatch and Excitation System Controller Design Using Genetic, Algorithm.". MEJ- Mansoura Engineering Journal, 28, 2, 2021, 1-16. doi: 10.21608/bfemu.2021.141136
HARVARD
El-Desouki, H., El-Zonkoly, A., Aly, G. (2021). 'Optimal Active and Reactive Power Dispatch and Excitation System Controller Design Using Genetic, Algorithm.', MEJ- Mansoura Engineering Journal, 28(2), pp. 1-16. doi: 10.21608/bfemu.2021.141136
VANCOUVER
El-Desouki, H., El-Zonkoly, A., Aly, G. Optimal Active and Reactive Power Dispatch and Excitation System Controller Design Using Genetic, Algorithm.. MEJ- Mansoura Engineering Journal, 2021; 28(2): 1-16. doi: 10.21608/bfemu.2021.141136
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