Abstract
The expanding use of photovoltaic (PV) systems as an alternative green source for electricity presents many challenges, one of which is the timely diagnosis of faults to maintain the quality and high productivity of such systems. In recent years, various studies have been conducted on the fault diagnosis of PV systems. However, very few instances of fault diagnostic techniques could be implemented on integrated circuits, and these techniques require costly and complex hardware. This work presents a novel and effective, yet small and implementable, fault diagnosis algorithm based on an artificial intelligent nonlinear autoregressive exogenous (NARX) neural network and Sugeno fuzzy inference. The algorithm uses Sugeno fuzzy inference to isolate and classify faults that may occur in a PV system. The fuzzy inference requires the actual sensed PV system output power, the predicted PV system output power, and the sensed surrounding conditions. An artificial intelligent NARX-based neural network is used to obtain the predicted PV system output power. The actual output power of the PV system and the surrounding conditions are obtained in real-time using sensors. The algorithm is proven to be implementable on a low-cost microcontroller. The obtained results indicate that the fault diagnosis algorithm can detect multiple faults such as open and short circuit degradation, faulty maximum power point tracking (MPPT), and conditions of partial shading (PS) that may affect the PV system. Moreover, radiation and temperature, among other non-linear associations of patterns between predictors, can be captured by the proposed algorithm to determine the accurate point of the maximum power for the PV system.
Highlights
During the previous decade, there has been an expanding enthusiasm for photovoltaic (PV) systems because of the numerous favorable circumstances resulting from these systems
The key contribution of this paper is to introduce a novel and Sustainability 2020, 12, 2011 effective, yet small and implementable, algorithm based on a nonlinear autoregressive exogenous (NARX) neural network as well as Sugeno fuzzy inference
The PV system architecture introduced in this work comprises one string of PV panels logically divided into two groups
Summary
There has been an expanding enthusiasm for photovoltaic (PV) systems because of the numerous favorable circumstances resulting from these systems. Among such favorable circumstances are the unpolluted operation, the unlimited power resources, the overall simplicity of establishment, and the noiseless operation. PV panels produce electrical power that is proportional to the total amount of solar radiation received on their surface from the sun This is normally denoted by the Global Horizontal Irradiance (GHI). Open-circuits, and short-circuits are often hard to avoid Such faults can lead to a reduced PV system lifespan, loss in system-generated energy, or even serious safety-related issues. Such fault detection and diagnosis methods would provide benefits in terms of a longer PV system lifespan, improvement in the energy conversion efficiency, and reduction in maintenance cost
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