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Multiobjective coyote optimization algorithm for techno‐economic simultaneous placement of <scp>DGs</scp> and <scp>FCLs</scp> in distribution networks

Adel A. Abou El‐Ela, Ragab A. El‐Sehiemy, Abdullah M. Shaheen, Aya R. Elllien

2021International Transactions on Electrical Energy Systems14 citationsDOI

Abstract

In this paper, a multi-objective coyote optimization algorithm (MOCOA) is proposed for techno-economic benefits of simultaneous placement of fault current limiters (FCLs) and distributed generation (DGs) units in distribution grids. The proposed MOCOA is employed for mitigating the loss of power in distribution lines, minimizing the fault current levels, minimizing the economic costs of FCL size, enhancing the total voltage stability index, and reducing the total voltage deviation. The MOCOA is enhanced by emerging the concept of pareto-optimal dominance to store the distinguished solutions in each generation. Finally, TOPSIS, a technique is implemented to find the compromise solution to fulfill the operator requirements. Applications are carried out in three distribution systems. The simulation results show the great effectiveness of the proposed MOCOA in acquiring several alternatives with appropriate technical improvements in power losses, voltage stability, fault level reduction, and economical FCL size.

Topics & Concepts

Mathematical optimizationVoltagePareto principleFault (geology)Reduction (mathematics)EngineeringComputer scienceReliability engineeringMathematicsElectrical engineeringGeometryGeologySeismologyOptimal Power Flow DistributionElectric Power System OptimizationMicrogrid Control and Optimization
Multiobjective coyote optimization algorithm for techno‐economic simultaneous placement of <scp>DGs</scp> and <scp>FCLs</scp> in distribution networks | Litcius