2. Methodology
In this paper, a basic parameter analysis was conducted for PV systems integrated into a Norwegian residential
building’s rooftop. This will help to discover how to achieve optimal energy production using the given system. For
this purpose, simulations of roof-mounted PV systems were conducted using PVsyst V5.52 software [7]. The
software was developed at the University of Geneva and is one of the most widely used simulation tools for
analyzing the performance of PV systems. The software offers an opportunity for the preliminary or detailed design
of a complete PV system, either grid-connected, stand-alone, pumping, or DC-grid. The software also has databases
of weather files (global and horizontal solar radiation, ambient temperature) for various geographical locations and
basic PV system components. In addition, the program provides 3D representations of buildings, PV fields and
surrounding shading elements.
2. MethodologyIn this paper, a basic parameter analysis was conducted for PV systems integrated into a Norwegian residentialbuilding’s rooftop. This will help to discover how to achieve optimal energy production using the given system. Forthis purpose, simulations of roof-mounted PV systems were conducted using PVsyst V5.52 software [7]. Thesoftware was developed at the University of Geneva and is one of the most widely used simulation tools foranalyzing the performance of PV systems. The software offers an opportunity for the preliminary or detailed designof a complete PV system, either grid-connected, stand-alone, pumping, or DC-grid. The software also has databasesof weather files (global and horizontal solar radiation, ambient temperature) for various geographical locations andbasic PV system components. In addition, the program provides 3D representations of buildings, PV fields andsurrounding shading elements.
การแปล กรุณารอสักครู่..