| Abstract [eng] |
During the study, simulations were performed for four systems - monocrystalline panels both without and with optimizers, double-sided panels both without and with optimizers. The change of irradiance to the tilt angle of the panels, the influence of optical losses and the increase of irradiance to the surface for two-sided modules were analyzed. The most effective parameters (angle, azimuth, distance between rows of modules) were evaluated for all four sites, and correlations between optimized and non-optimized systems were also determined. The influence of the distance between rows of panels on the generation for all four systems were analyzed, as well as the correlation of the ratio of the total power of the inverters and panels to the generation. The obtained data were summarized and a tool was prepared, capable of preliminarily determining the profitability of the systems and the most economically efficient system from the collected data. |
