Efficiency Assessment of Five Types of Photovoltaic Modules Installed on a Fixed and on a Dual-Axis Solar-Tracked Platform

A solution to increase the electrical output of the photovoltaic systems relies on solar tracking mechanisms that increase the amount of received solar energy. The experimental results obtained during a monitoring period of one year are comparatively presented in the paper for five types of photovoltaic modules installed on a fixed platform (as reference) and on a dual-axis solar tracking platform in the Renewable Energy Systems and Recycling R&D Centre of the Transilvania University of Brasov, Romania. The influence of the solar-tracking mechanism and the meteorological conditions specific to the four seasons during the monitoring period on the output of the analysed photovoltaic technologies are discussed in the paper. The solar tracking increases by 28% the amount of the yearly received solar energy and by 29.6% the electrical energy output of the entire PV platform. The solar conversion efficiency of the tracked PV platform is slightly increased (14.34%) when compared with the fixed one (14.17%). When assessing the influence of solar tracking on each type of PV, the results show that the CIGS PV module has the highest relative energy gain (34%) followed by CIS (30.8%), m-Si (30.6%), p-Si (27.3%) and CdTe (23.4%) PV modules.

Automated summary

This study presents a comparative analysis of the experimental results of five types of photovoltaic modules installed on fixed and solar tracking platforms. The results show that solar tracking increases the annual solar energy received by 28% and the electrical energy output of the PV platform by 29.6%. The solar conversion efficiency of the tracked PV platform is slightly higher (14.34%) compared to the fixed platform (14.17%). Among the PV modules, CIGS module exhibits the highest relative energy gain (34%), followed by CIS (30.8%), m-Si (30.6%), p-Si (27.3%), and CdTe (23.4%) modules.