Author(s): Juan Manuel Ramirez
Journal: Smart Grid and Renewable Energy
ISSN 2151-481X
Volume: 02;
Issue: 03;
Start page: 245;
Date: 2011;
Original page
Keywords: Distributed Generation (DG) | Optimization | Photovoltaic Energy | Renewable Energy | Smart Grid | Wind Farm
ABSTRACT
Modeling of photovoltaic (PV) and wind farms (WF) stations to take into account these renewable energies into the power flow formulation are summarized. A strategy based on multi objective optimization in order to allocate PV and WF power into electrical power system is proposed. It is assumed that there are a reduced number of choices to allocate the stations. The algorithm is applied to the 39-bus test power system. The results show that the proposed algorithm is capable of optimal placement of renewable units.
Journal: Smart Grid and Renewable Energy
ISSN 2151-481X
Volume: 02;
Issue: 03;
Start page: 245;
Date: 2011;
Original page
Keywords: Distributed Generation (DG) | Optimization | Photovoltaic Energy | Renewable Energy | Smart Grid | Wind Farm
ABSTRACT
Modeling of photovoltaic (PV) and wind farms (WF) stations to take into account these renewable energies into the power flow formulation are summarized. A strategy based on multi objective optimization in order to allocate PV and WF power into electrical power system is proposed. It is assumed that there are a reduced number of choices to allocate the stations. The algorithm is applied to the 39-bus test power system. The results show that the proposed algorithm is capable of optimal placement of renewable units.
