Evaluation of different methods for solar cells/modules parameters extraction

Abdulrazzaq, Ali Kareem; Bognár, G.; Plesz, Balázs

doi:10.1016/j.solener.2019.12.010

Cited by 44 publications

(11 citation statements)

References 37 publications

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“…In this work, the SDM has been used to build the electrical sub-model. The implicit non-linear mathematical representation of the SDM is given as [11,12]:…”

Section: Electrical Sub-modelmentioning

confidence: 99%

Combined electro-thermal model for PV panels

Abdulrazzaq

Bognár

Plesz

2021

Pollack

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This paper presents a combined electro-thermal model to serve the aim of accurate output power prediction of photovoltaic systems, based on the concept of the thermal energy balance. The electrical sub-model is built based on fitting a surface to the current-voltage curves collected under wide range temperatures and irradiances. For this purpose, the current-voltage characteristic curves are reproduced using two different methods. The thermal sub-model considers all the effective heat transfer mechanisms to estimate the photovoltaic module junction temperature. The Newton-Raphson iterative method is used as a solving algorithm to calculate the photovoltaic junction temperature. The collected results prove the applicability of the model under a wide range of environmental conditions.

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“…In this work, the SDM has been used to build the electrical sub-model. The implicit non-linear mathematical representation of the SDM is given as [11,12]:…”

Section: Electrical Sub-modelmentioning

confidence: 99%

Combined electro-thermal model for PV panels

Abdulrazzaq

Bognár

Plesz

2021

Pollack

Self Cite

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“…A new analytical approach‐based single‐diode model is proposed by Wei et al 10 to obtain five parameters using key points of I–V curves. Four different approaches have been suggested and compared by Abdulrazzaq et al 11 to obtain five different parameters of a one‐diode model. The study found that least square fitting and Newton‐Raphson‐based methods were more accurate in comparison with other methods.…”

Section: Introductionmentioning

confidence: 99%

A new integrated single‐diode solar cell model for photovoltaic power prediction with experimental validation under real outdoor conditions

Malik

Chandel

2020

Int J Energy Res

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The output power prediction by a photovoltaic (PV) system is an important research area for which different techniques have been used. Solar cell modeling is one of the most used methods for power prediction, the accuracy of which strongly depends on the selection of cell parameters. In this study, a new integrated single-diode solar cell model based on three, four, and five solar cell parameters is developed for the prediction of PV power generation. The experimental validation of the predicted results is done under outdoor climatic conditions for an Indian location. The predicted power by three models is found close to measured values within 4.29% to 4.76% accuracy range. The comparative power estimation analysis by these models shows that the three-parameter model gives higher accuracy for low solar irradiance values <150 W/m 2 , the four-parameter model in the range of 150 to 500 W/m 2 , and the five-parameter model for >500 W/m 2. The present model is also compared with other models in literature and is found to be more accurate with less percentage error. The overall results also show that the power produced depends on temperature and solar radiation levels at a particular location. Thus, single solar cell model developed can be used with sufficient accuracy for power forecast of PV systems for any location worldwide. The follow-up research areas are also identified.

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“…We proposed and analyzed some iterative techniques without using second derivatives in order to solve the nonlinear equations of the solar cell (single diode) model using different values of the load resistance. There are many modes progressed on the progression the convergence of Newton's method, in order to attain lesser iterations than it [19,71] .…”

Section: Introductionmentioning

confidence: 99%

Analysis of Mathematical Modeling of PV Cell with Numerical Algorithm

Rasheed

Shihab

2020

Advanced Energy Conversion Materials

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In this paper, we exhibit two multi steps iterative algorithms for solving nonlinear equation. These two techniques are free from second derivative and per iteration; they only need six evaluations of the single-diode model function for solar cell of it is first derivative. Numerical examples investigate that both of the two techniques are more accurate, efficient and easy to use and more practical than of the two step methods. The absolute error values for all the algorithms have been demonstrated and compared.

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Evaluation of different methods for solar cells/modules parameters extraction

Cited by 44 publications

References 37 publications

Combined electro-thermal model for PV panels

Combined electro-thermal model for PV panels

A new integrated single‐diode solar cell model for photovoltaic power prediction with experimental validation under real outdoor conditions

Analysis of Mathematical Modeling of PV Cell with Numerical Algorithm

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