Abstract:
Photovoltaic Solar energy, with a steady growth of around 40% in recent years, is
spearheading and the bulk silicon that remains these days the main material of photovoltaic
due to its good performance has seen, for the imperatives of cost reduction, the emergence
of cheaper thin film silicon whose performance is constantly improving. In this work, we
present models for predicting the performance of different type of silicon photovoltaic (PV)
modules (monocrystalline (c-Si), amorphous (a-Si) and micromorphous (μ-Si)) operating in
outdoor conditions. The models are based on the seven-parameter model which is adapted
for each technological type considered. The simulations conducted for each type of module
for different conditions of irradiation and temperature were validated with the experimental
data got from a commercialized PV module installed on a PV outdoor test platform at UDES.
Good agreements were found between the simulated results and the measurements.
However, some discrepancies are noticed which we think are du mainly to the effects of the
temperature
