Modeling and Dimensioning of Grid-Connected Photovoltaic Systems

Renewable energy sources (RES) have been largely deployed as green energy producers in order to reduce power consumption while minimizing greenhouse emissions. However, the intermittent nature of RES (e.g., Solar Energy) must be addressed in order to allow their large scale integration in buildings. Standalone PV systems are generally installed in remote and rural regions since they are not connected to the electrical grid. They use mainly storage devices (e.g., batteries) to store produced/extra solar energy during the day for eventual usage at night. Recently, there have been enormous deployments of grid-connected photovoltaic systems, which use solar panels connected to the electricity grid for producing and feeding extra electricity back to the grid. They are also being able to supply electricity to the load when there is no production. In this paper, we are talking the research question aiming at selecting the suitable dimensions for energy production (PV system). We have, therefore, developed a model for each component of the PV system. A grid-connected PV system is sized, modeled and analyzed according to a dedicated consumption profile. Simulation results show the effectiveness of the proposed dimensioning model.