Peafowl optimization algorithm based PV cell models parameter identification

Zheng, You; Zhang, Enyou; An, Peng

doi:10.3389/fenrg.2022.985523

Front. Energy Res.

2022

DOI: 10.3389/fenrg.2022.985523

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Peafowl optimization algorithm based PV cell models parameter identification

You Zheng

Enyou Zhang²,

Peng An

Abstract: Photovoltaic (PV) power generation can considerably reduce the consumption of traditional fossil energy and improve environmental problems. Reliable photovoltaic (PV) cell modelling owns great significance to the following output characteristics analysis and optimal operation of the whole PV system, while there are several unknown physical parameters within different PV cell models. Thus, the identification of the internal parameters of the PV cell model is the first and foremost step for PV cell modelling, ne… Show more

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2024

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Parameter extraction of photovoltaic cell models using electric eel foraging optimizer

Izci,

Ekinci,

Abualigah

et al. 2024

Front. Energy Res.

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Solar energy has emerged as a key solution in the global transition to renewable energy sources, driven by environmental concerns and climate change. This is largely due to its cleanliness, availability, and cost-effectiveness. The precise assessment of hidden factors within photovoltaic (PV) models is critical for effectively exploiting the potential of these systems. This study employs a novel approach to parameter estimation, utilizing the electric eel foraging optimizer (EEFO), recently documented in the literature, to address such engineering issues. The EEFO emerges as a competitive metaheuristic methodology that plays a crucial role in enabling precise parameter extraction. In order to maintain scientific integrity and fairness, the study utilizes the RTC France solar cell as a benchmark case. We incorporate the EEFO approach, together with Newton-Raphson method, into the parameter tuning process for three PV models: single-diode, double-diode, and three-diode models, using a common experimental framework. We selected the RTC France solar cell for the single-diode, double-diode, and three-diode models because of its significant role in the field. It serves as a reliable evaluation platform for the EEFO approach. We conduct a thorough evaluation using statistical, convergence, and elapsed time studies, demonstrating that EEFO consistently achieves low RMSE values. This indicates that EEFO is capable of accurately estimating the current-voltage characteristics. The system’s smooth convergence behavior further reinforces its efficacy. Comparing the EEFO with competing methodologies reinforces its competitive advantage in optimizing solar PV model parameters, showcasing its potential to greatly enhance the usage of solar energy.

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Parameter extraction of photovoltaic cell models using electric eel foraging optimizer

Izci,

Ekinci,

Abualigah

et al. 2024

Front. Energy Res.

View full text Add to dashboard Cite

show abstract

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Peafowl optimization algorithm based PV cell models parameter identification

Cited by 1 publication

References 25 publications

Parameter extraction of photovoltaic cell models using electric eel foraging optimizer

Parameter extraction of photovoltaic cell models using electric eel foraging optimizer

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