AbstractThis paper presents a new methodology using particle swarm optimization (PSO) for the placement of distributed generation (DG) in the radial distribution systems to reduce the power loss. Single DG placement is used to find the optimal DG location and its size which corresponding to the maximum loss reduction. The proposed method is tested on the 26-bus radial distribution system which modified from the Provincial Electricity Authority (PEA) distribution system. The total power is 8.49 MW and 5.97 MVAR and the power loss is 11.68kW and 26.08 kVAR. The load flow analysis on distribution use forward-backward sweep methodology. The simulation results show that PSO can obtain the maximum power loss reductions
Minimization of real power loss and improvement of voltage authenticity of the network are amongst t...
Now-a-days, Determination of optimal location and size of Distributed Generation units is one of the...
In recent years, the power industry has experienced significant changes on the distribution power sy...
AbstractThis paper presents a new methodology using particle swarm optimization (PSO) for the placem...
For the purpose of improving the voltage profile and power losses reduction, this paper proposes all...
AbstractOptimal placement and optimal sizing of Distributed Generation (DG) for the sake of reductio...
Among major concerns of the conventional electrical power generation systems, are the issues related...
The technology advancement in Distributed Generations (DG) has significantly influenced the environ...
The technology advancement in Distributed Generations (DG) has significantly influenced the environ...
This paper presents a new methodology using Particle Swarm Optimization(PSO) for the placement of Di...
The power distribution feeder reconfiguration and optimum placement of distributed generation are tw...
Distributed Generation (DG) is a separate power plant from a distribution system that is connected t...
The increasing energy demands are stressing the generation and transmission capabilities of the powe...
(PSO) based technique for the optimal allocation of Distributed Generation (DG) units in the power s...
The utilization of Distributed Generation (DG) sources in Distribution Power system is indeed vital ...
Minimization of real power loss and improvement of voltage authenticity of the network are amongst t...
Now-a-days, Determination of optimal location and size of Distributed Generation units is one of the...
In recent years, the power industry has experienced significant changes on the distribution power sy...
AbstractThis paper presents a new methodology using particle swarm optimization (PSO) for the placem...
For the purpose of improving the voltage profile and power losses reduction, this paper proposes all...
AbstractOptimal placement and optimal sizing of Distributed Generation (DG) for the sake of reductio...
Among major concerns of the conventional electrical power generation systems, are the issues related...
The technology advancement in Distributed Generations (DG) has significantly influenced the environ...
The technology advancement in Distributed Generations (DG) has significantly influenced the environ...
This paper presents a new methodology using Particle Swarm Optimization(PSO) for the placement of Di...
The power distribution feeder reconfiguration and optimum placement of distributed generation are tw...
Distributed Generation (DG) is a separate power plant from a distribution system that is connected t...
The increasing energy demands are stressing the generation and transmission capabilities of the powe...
(PSO) based technique for the optimal allocation of Distributed Generation (DG) units in the power s...
The utilization of Distributed Generation (DG) sources in Distribution Power system is indeed vital ...
Minimization of real power loss and improvement of voltage authenticity of the network are amongst t...
Now-a-days, Determination of optimal location and size of Distributed Generation units is one of the...
In recent years, the power industry has experienced significant changes on the distribution power sy...