Add to ORKGA range of techniques have been proposed to define the optimal locations and capacities of distributed generation (DG) as a means of ensuring that the maximum amount of DG can be connected to existing and future networks. However, there are limitations inherent in these methods, not least in finding the best combination of sites for connecting a predefined number of DGs. Here, a method combining optimal power flow and genetic algorithms aims to meet this requirement. Its use would be in enabling Distribution Network Operators to search a network for the best sites and capacities available to strategically connect a defined number of DGs among a large number of potential combinations. Some applications of the proposed methodology confirmed i...
In this paper a new technique, based on genetic algorithms, for the optimal sizing and siting of di...
In distributed generation (DG) selection and installation problem in distribution networks to promot...
The large amount of Distributed Generation (DG), that will be installed in the near future, drastic...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
In this paper a new technique, based on genetic algorithms, for the optimal sizing and siting of di...
This paper presents a genetic algorithm (GA) based approach for the solution of the optimal power...
In this paper a new technique, based on genetic algorithms, for the optimal sizing and siting of di...
In distributed generation (DG) selection and installation problem in distribution networks to promot...
The large amount of Distributed Generation (DG), that will be installed in the near future, drastic...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
Many methods have been applied to examine the capacity of existing distribution networks to accept d...
In this paper a new technique, based on genetic algorithms, for the optimal sizing and siting of di...
This paper presents a genetic algorithm (GA) based approach for the solution of the optimal power...
In this paper a new technique, based on genetic algorithms, for the optimal sizing and siting of di...
In distributed generation (DG) selection and installation problem in distribution networks to promot...
The large amount of Distributed Generation (DG), that will be installed in the near future, drastic...