Abstract
The present paper defines and assesses a new simplified method to represent the photovoltaic (PV) modules’ electrical behavior, based on the commonly used one diode and three parameters (1D + 3P) model, addressing two main objectives. The first one is to quantify and assess, at different operating conditions, the PV modules electrical behavior estimations’ accuracy provided by the well-known 1D + 3P, through a comparison based on experimental and theoretical results. The second one concerns the performance assessment of the 1D + 3P model’s suggested approximation, aiming at simplifying the mathematics instead of solving complex iterative equations, which hinges on higher computational time to obtain accurate results. Hence, experimental and theoretical data were considered, aiming at performing a thorough comparison with more than 17,000 PV modules being assessed, which was achieved by using both the California Energy Commission (CEC) database and PVsyst software. The findings show that the already known 1D + 3P model delivers satisfactory power output estimations for crystalline silicon modules and high irradiance conditions. However, its performance worsens when considering Low Irradiance and thin-film technology. In comparison with the original model, accurate results were obtained with the new simplified suggested 1D + 3P for all irradiance conditions and technologies assessed, thus proving its validity and capability of circumventing the aforementioned challenges.
Highlights
Since the early 2000s, Portugal has been carrying out an ambitious plan of integrating wind-energy-conversion systems in the electrical grid
The second aim of this paper is to propose a new model to describe the electrical behavior of a PV module
The validation of the above introduced two models is performed. This validation takes place by comparing the results provided by both models with experimental data available in a comprehensive PV modules database and the theoretical results obtained by using a widely known PV modules simulation software that uses the 1D + 5P model
Summary
Since the early 2000s, Portugal has been carrying out an ambitious plan of integrating wind-energy-conversion systems in the electrical grid. At the end of 2019, wind power accounted for more than 25% of the Portuguese load supply. It can be said that this operation was a true success since no issues related to the significant wind share have been reported. The development of photovoltaic (PV) power in Portugal is far from being so impressive, accounting for barely 2% of the electricity consumed in 2019 [1]. This is hardly understandable given the enormous solar potential in Portugal.
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