Abstract
This article presents a methodology for automatic fault detection in photovoltaic arrays. Due to the great importance in the construction of increasingly robust photovoltaic plants, automatic fault detection has become a necessary tool to extend the useful life of these plants, avoid system shutdowns and reduce serious safety problems. In the present study, nine possible faults are detected, caused by malfunction in the bypass and blocking diodes. The solution consists of training two models based on artificial neural networks, the first model is a binary classifier that detects whether or not a fault occurs, the second is a multiclass classifier that detects the fault type. The obtained models were trained from simulation data, in an architecture of 9 photovoltaic panels interconnected in three rows by three columns matrix (extendable to larger systems). The evaluation shows that the prediction system has a total accuracy of 92.95%. Finally, this methodology is intended to be implemented in Colombia, in zones with difficult access and not interconnected to the electricity grid, seeking to reduce corrective maintenance.
Highlights
Automatic fault detection in photovoltaic (PV) systems has acquired great relevance worldwide, as expressed by (Pierdicca et al, 2018), (Rao et al, 2019), and (Lu et al, 2019)
This article presents a methodology for automatic fault detection in photovoltaic arrays
The evaluation shows that the prediction system has a total accuracy of 92.95%
Summary
Automatic fault detection in photovoltaic (PV) systems has acquired great relevance worldwide, as expressed by (Pierdicca et al, 2018), (Rao et al, 2019), and (Lu et al, 2019). A great deal of work, carried out by different researchers, shows the viability and importance of solving this issue (Dhimish et al, 2018), (Harrou et al, 2018) and (De Benedetti et al, 2018). Renewable energy sources, such as solar and wind, are promising alternatives to conventional fossil fuels as they are clean, sustainable, safe, environmentally friendly, and with zero CO2 emissions (Harrou et al, 2018). (Hosenuzzaman et al, 2015) estimates that photo voltaic energy generation will reduce CO2 emissions by approximately 69 to 100 million tons by 2030
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