Reliable applied objective for identifying simple and detailed photovoltaic models using modern metaheuristics: Comparative study

The first issue in the optimal photovoltaic system design is providing an accurate PV model that emulates the system behaviour under several environmental conditions. The accuracy of the photovoltaic model stands on its identified parameters that are mainly based on the executed optimization techniq...

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Bibliographic Details
Published in:Energy conversion and management 2020-11, Vol.223, p.113279, Article 113279
Main Authors: Yousri, Dalia, Abd Elaziz, Mohamed, Oliva, Diego, Abualigah, Laith, Al-qaness, Mohammed A.A., Ewees, Ahmed A.
Format: Article
Language:English
Subjects:
Alternative energy sources
Anaerobic digestion
Bioreactors
Comparative studies
Digestion
Double diode PV model
Economic conditions
Energy balance
Energy recovery
Food
Food waste
Horticulture
Lambert function
Load distribution
Loading rate
Meta-heuristics
Methanogenesis
Microbial activity
Microorganisms
Objective functions
Organic loading
Performance evaluation
Photovoltaics
PV parameters estimation
Renewable energy
Single diode PV model
Thermophilic microorganisms
Three diode model
Waste treatment
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Summary:The first issue in the optimal photovoltaic system design is providing an accurate PV model that emulates the system behaviour under several environmental conditions. The accuracy of the photovoltaic model stands on its identified parameters that are mainly based on the executed optimization technique and the employed objective function. As per the literature, two methodologies have been applied for computing the estimated current in the objective function, detecting the most efficient one is the first step for achieving high qualified and precise solutions. Motivated by that, we investigate the two objective functions with considering several novel optimization algorithms. The implemented algorithms are marine predators algorithm, Slime mould algorithm, atom search optimization, Political Optimizer, Parasitism–Predation algorithm as well as harris hawk optimizer and salp swarm algorithm. The Lambert function forms have been used for validating the results. Several profiles of the experimental datasets are measured under different levels of temperature and irradiation conditions to identify the single, double and three diode models parameters of the RTC France solar cell and Canadian-Solar-(CS6P-240P) multi-crystalline solar panel. The main findings show that, applying Newton–Raphson while computing the estimated current in the objective function enhances the algorithms performance to provide the more precise and accurate parameters in comparison with using the measured current and solve the photovoltaic model equation linearly. Moreover, the marine predators algorithm confirms the quality of its solutions and provides a better representation for the photovoltaic datasets with high stability based on the lambert forms and the statistical analyses. •Investigate two objective functions to determine the more accurate to estimate PV parameters.•Propose a new five techniques, including MPA, SMA, ASO, PO, and PPA, as PV parameter estimation methods.•Evaluate the tested algorithms and two objectives using different diode models.•Apply the Lambert function to report the accuracy of the identified parameters and reliability of the objective function.•Assess the quality of the proposed five algorithms through five experimentally measured datasets.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2020.113279