Feeder reconfiguration (FR), capacitor placement and sizing (CPS) are the two renowned methods widely applied by the researchers for loss minimization with node voltage enrichment in the electrical distribution network (EDN), which has an immense impact on economic savings. In recent years, optimization of FR and CPS together can proficiently yield better power loss minimization and save costs compared to the individual optimization of FR and CPS. This work proposes an application of an improved salp swarm optimization technique based on weight factor (ISSOT-WF) to solve the cost-based objective function using CPS with and without FR for five different cases and three load levels, subject to satisfying operating constraints. In addition, to...
In this paper, a modified discrete particle swarm optimization is presented to find the optimal plac...
This paper aims at power loss minimization and reduction of cost due to losses in the distribution n...
This work aims at reduction in active and reactive power loss reduction in distribution networks as ...
Capacitor Allocation (CA) and Network Reconfiguration (NR) are the traditional methods extensively a...
Abstract — In this paper, both Distributed Generators (DG) and capacitors are allocated and sized op...
Increasing power demand from passive distribution networks has led to deteriorated voltage profiles ...
The population is speeding up and the demands for electrical energy are clearly increasing, this gro...
In this work, a new technique is introduced for optimal incorporation of shunt capacitors (SCs) in d...
The population is speeding up and the demands for electrical energy are clearly increasing, this gro...
and sizing is one of the current topics in new restructured power system. Most of the authors have w...
Capacitor installation is one of the common methods of the reactive power compensation in power dist...
PrintIn this paper, both Distributed Generators (DG) and capacitors are allocated and sized optimall...
Abstract — This paper presents multi-objective function for optimally determining the size and locat...
This paper presents the optimization of large-scale practical distorted distribution network for max...
AbstractIn this paper, a modified discrete particle swarm optimization is presented to find the opti...
In this paper, a modified discrete particle swarm optimization is presented to find the optimal plac...
This paper aims at power loss minimization and reduction of cost due to losses in the distribution n...
This work aims at reduction in active and reactive power loss reduction in distribution networks as ...
Capacitor Allocation (CA) and Network Reconfiguration (NR) are the traditional methods extensively a...
Abstract — In this paper, both Distributed Generators (DG) and capacitors are allocated and sized op...
Increasing power demand from passive distribution networks has led to deteriorated voltage profiles ...
The population is speeding up and the demands for electrical energy are clearly increasing, this gro...
In this work, a new technique is introduced for optimal incorporation of shunt capacitors (SCs) in d...
The population is speeding up and the demands for electrical energy are clearly increasing, this gro...
and sizing is one of the current topics in new restructured power system. Most of the authors have w...
Capacitor installation is one of the common methods of the reactive power compensation in power dist...
PrintIn this paper, both Distributed Generators (DG) and capacitors are allocated and sized optimall...
Abstract — This paper presents multi-objective function for optimally determining the size and locat...
This paper presents the optimization of large-scale practical distorted distribution network for max...
AbstractIn this paper, a modified discrete particle swarm optimization is presented to find the opti...
In this paper, a modified discrete particle swarm optimization is presented to find the optimal plac...
This paper aims at power loss minimization and reduction of cost due to losses in the distribution n...
This work aims at reduction in active and reactive power loss reduction in distribution networks as ...