Author(s)

Sheeraz Kirmani, Mohammad Kalimullah

Department of Electrical Engineering, Jamia Millia Islamia (A Central University), New Delhi, India.

The solar photovoltaic (PV) market has grown very rapidly throughout the past 15 years and is quickly becoming an international, non-subsidized market with increased demand for performance certainty. An increasing number of studies analyze long-term monitoring data to determine degradation rates, or “rates of change” (RoCs). Analyses of long-term monitoring data give insight in the performance of PV power plants over time, but are found to be sensitive to uncertainties, especially those related to irradiance measurements using silicon reference cells. The case study analysis shows, however, that the RoCs are much lower if reference cells are adjusted for soiling, drifting and sensor replacements or if satellite irradiance data is used. This indicates that the impact of biased irradiance data should not be underestimated. It was also found, that the distribution of RoCs is strongly influenced by the age and size of the selected systems, underlining the importance of system selection. The case study analysis indicates that crystalline silicon PV systems operating for 8+ years are expected to show a “rate of change” of -0.5% per year or fewer. In this paper the 15-minute data has been collected from a solar photovoltaic generating station installed on the roof of engineering college building and efficiency/degradation of solar panels have been analyzed and reported.

Degradation, Drift, Irradiance, Rates of Change, Silicon Reference Cell

Kirmani, S. and Kalimullah, M. (2017) Degradation Analysis of a Rooftop Solar Photovoltaic System—A Case Study. Smart Grid and Renewable Energy, 8, 212-219. doi: 10.4236/sgre.2017.86014.