Litcius/Paper detail

Analytical modeling of novel equivalent circuits of double diode solar cell circuits using a special transcendental function approach

Ziad M. Ali, Martin Ćalasan, Mostafa H. Mostafa, Shady H. E. Abdel Aleem

2024PLoS ONE11 citationsDOIOpen Access PDF

Abstract

Solar photovoltaic (PV) cell modeling is crucial to understanding and optimizing solar energy systems. While the single-diode model (PVSDM) is commonly used, the double-diode model (PVDDM) offers improved accuracy at a reasonable level of complexity. However, finding analytical closed-form solutions for the current-voltage (I-U) dependency in PVDDM circuits has remained a challenge. This work proposes two novel configurations of PVDDM equivalent circuits and derives their analytical closed-form solutions. The solutions are expressed in terms of the Lambert W function and solved using a special transcendental function approach called Special Trans Function Theory (STFT). The accuracy of the proposed equivalent circuits is demonstrated on two solar cells/modules, RTC-F and MSX-60, showing equal or better performance than the standard PVDDM equivalent circuit. Further testing on a commercial solar panel under different irradiance and temperature conditions confirms the applicability of the proposed models. To address the parameter estimation problem, a novel metaheuristic algorithm, the chaotic honey-badger algorithm, is developed and evaluated. The results obtained validate the accuracy and practicality of the proposed PVDDM equivalent circuit configurations.

Topics & Concepts

Equivalent circuitPhotovoltaic systemElectronic circuitComputer scienceDiodeSolar cellElectronic engineeringFunction (biology)Transcendental functionTranscendental equationAlgorithmVoltageTopology (electrical circuits)MathematicsControl theory (sociology)EngineeringNumerical analysisElectrical engineeringMathematical analysisCombinatoricsBiologyArtificial intelligenceEvolutionary biologyControl (management)Photovoltaic System Optimization TechniquesSolar Radiation and Photovoltaicssolar cell performance optimization