Add to ORKGIn this work, the impact of distributed generation in the transmission expansion planning will be simulated through the performance of an optimization process for three different scenarios: the first without distributed generation, the second with distributed generation equivalent to 1% of the load, and the third with 5% of distributed generation. For modeling the expanding problem the load flow linearized method using genetic algorithms for optimization has been chosen. The test circuit used is a simplification of the south eastern Brazilian electricity system with 46 buses
The paper presents an extended genetic algorithm for solving the optimal transmission network expans...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
In this work, the impact of distributed generation in the transmission expansion planning will be si...
The transmission system is responsible for connecting the power generators to consumers safely and r...
Deregulation has been obtained new options in the design and planning of the power system. One of th...
Reconstructing power systems has changed the traditional planning of power systems and has raised ne...
The restructuring of global power industries has introduced a number of challenges, such as conflict...
Planning for expanding a power system under different scenarios is one of the major challenge for po...
IEEE International Symposium on INnovations in Intelligent SysTems and Applications (INISTA) -- JUN ...
The growth in the system load accompanied by an increase of power loss in the distribution system. D...
Electricity consumption is rapidly increasing, and the gap between generation and load is widening. ...
The large amount of Distributed Generation (DG), that will be installed in the near future, drastic...
Distributed generation (DG) is rapidly increasing its penetration level in Australia, and is expecte...
This paper describes the impact of development distribution in order to identify optimum location a...
The paper presents an extended genetic algorithm for solving the optimal transmission network expans...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
In this work, the impact of distributed generation in the transmission expansion planning will be si...
The transmission system is responsible for connecting the power generators to consumers safely and r...
Deregulation has been obtained new options in the design and planning of the power system. One of th...
Reconstructing power systems has changed the traditional planning of power systems and has raised ne...
The restructuring of global power industries has introduced a number of challenges, such as conflict...
Planning for expanding a power system under different scenarios is one of the major challenge for po...
IEEE International Symposium on INnovations in Intelligent SysTems and Applications (INISTA) -- JUN ...
The growth in the system load accompanied by an increase of power loss in the distribution system. D...
Electricity consumption is rapidly increasing, and the gap between generation and load is widening. ...
The large amount of Distributed Generation (DG), that will be installed in the near future, drastic...
Distributed generation (DG) is rapidly increasing its penetration level in Australia, and is expecte...
This paper describes the impact of development distribution in order to identify optimum location a...
The paper presents an extended genetic algorithm for solving the optimal transmission network expans...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...