Add to ORKGThis paper presents three stages of methodology. The first stage is to identify the switching operation for radial network configuration while observe the power losses and the voltage profile without Distributed Generation (DG). The second stage is based on previous paper which is feeder reconfiguration for loss reduction with DGs. The last stage is sizing and allocation DGs at buses with low voltage profile resulted from the first stage to improve the power losses and voltage profile also comparing the result with the second stage. The objective of this method proposed is to show that allocation of DGs simultaneously based on low voltage profile can improve network power losses and improvement of voltage profile. The result shows that impr...
The power distribution feeder reconfiguration and optimum placement of distributed generation are tw...
A number of algorithms that aim to reduce power system losses and improve voltage profiles by optimi...
Distributed Generation (DG) placement on the basis of minimization of losses and maximization of sys...
Abstract—This paper presents three stages of methodology. The first stage is to identify the switchi...
The optimized network reconfiguration and Distributed Generations (DG) sizing with allocation instan...
This paper presents an effective method based on Particle Swarm Optimization (PSO) to identify the s...
The increasing energy demands are stressing the generation and transmission capabilities of the powe...
The utilization of Distributed Generation (DG) sources in Distribution Power system is indeed vital ...
Distribution network reconfiguration (DNR) is the most economical method to reduce power losses in d...
The technology advancement in Distributed Generations (DG) has significantly influenced the environ...
The technology advancement in Distributed Generations (DG) has significantly influenced the environ...
For the purpose of improving the voltage profile and power losses reduction, this paper proposes all...
The total power losses in distribution network system can be minimized by network configuration. In ...
Distribution network planning and operation require the identification of the best topological confi...
Network reconfiguration and distributed generation (DG) installation are important approaches for lo...
The power distribution feeder reconfiguration and optimum placement of distributed generation are tw...
A number of algorithms that aim to reduce power system losses and improve voltage profiles by optimi...
Distributed Generation (DG) placement on the basis of minimization of losses and maximization of sys...
Abstract—This paper presents three stages of methodology. The first stage is to identify the switchi...
The optimized network reconfiguration and Distributed Generations (DG) sizing with allocation instan...
This paper presents an effective method based on Particle Swarm Optimization (PSO) to identify the s...
The increasing energy demands are stressing the generation and transmission capabilities of the powe...
The utilization of Distributed Generation (DG) sources in Distribution Power system is indeed vital ...
Distribution network reconfiguration (DNR) is the most economical method to reduce power losses in d...
The technology advancement in Distributed Generations (DG) has significantly influenced the environ...
The technology advancement in Distributed Generations (DG) has significantly influenced the environ...
For the purpose of improving the voltage profile and power losses reduction, this paper proposes all...
The total power losses in distribution network system can be minimized by network configuration. In ...
Distribution network planning and operation require the identification of the best topological confi...
Network reconfiguration and distributed generation (DG) installation are important approaches for lo...
The power distribution feeder reconfiguration and optimum placement of distributed generation are tw...
A number of algorithms that aim to reduce power system losses and improve voltage profiles by optimi...
Distributed Generation (DG) placement on the basis of minimization of losses and maximization of sys...