Haider Ibrahim scite author profile

This paper presents a concise discussion and an investigation of the most literature-reported methods for modifying the lumped-circuit parameters of the single-diode model (SDM) of a photovoltaic (PV) module, to suit the prevailing climatic conditions of irradiance and temperature. These parameters provide the designer of a PV system with an essential design and simulation tool to maximize the efficiency of the system. The parameter modification methods were tested using three commercially available PV modules of different PV technologies, namely monocrystalline, multicrystalline, and thin film types. The SDM parameters of the three test modules were extracted under standard test conditions (STC) using a well-established numerical technique. Using these STC parameters as reference values, the parameter adjustment methods were subsequently deployed to calculate the modified parameters of the SDM under various operating conditions of temperature and irradiance using MATLAB-based software. The accuracy and effectiveness of these methods were evaluated by a comparison between the calculated and measured values of the modified parameters.

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Study of the Effect of Different Configurations of Bypass Diodes on the Performance of a PV String

Ibrahim

Anani

2019

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Performance of Different PV Array Configurations Under Different Partial Shading Conditions

Ibrahim

Anani

2019

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Variation of the performance of a PV panel with the number of bypass diodes and partial shading patterns

Ibrahim

Anani

2019

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this paper presents an investigation into the variation of the performance of a PV module under different patterns of partial shading with variation in the number of bypass diodes. The investigation was performed using a MATLAB/Simulink simulation approach, which mitigates the need for complex numerical techniques. The single-diode model of a PV cell was used in the modelling. The performance is assessed in terms of the global maximum power yield and the number of local power peaks in the power-voltage characteristic of the PV module. Results indicate that increasing the number of bypass diodes can improve the energy yield of a module at the expense of increasing the number of local power peaks in the power-voltage curve. It is also found that the latter depends, not only on the pattern of partial shading, but also on its severity.

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Performance Evaluation of Analytical Methods for Parameters Extraction of Photovoltaic Generators

Anani

Ibrahim

2020

Energies

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This paper presents a succinct exploration of several analytical methods for extracting the parameters of the single-diode model (SDM) of a photovoltaic (PV) module under standard test conditions (STC). The paper investigates six methods and presents the detailed mathematical analysis leading to the development of each method. To evaluate the performance of these methods, MATLAB-based software has been devised and deployed to generate the results of each method when used to extract the SDM parameters of various PV test modules of different PV technologies. Similar software has also been developed to extract the same parameters using well-established numerical and iterative techniques. A comparison is subsequently made between the synthesized results and those obtained using numerical and iterative methods. The comparison indicates that although analytical methods may involve a significant amount of approximations, their accuracy can be comparable to that of their numerical and iterative counterparts, with the added advantage of a significant reduction in computational complexity, and without the initialization and convergence difficulties, which are normally associated with numerical methods.

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Performance Evaluation of Analytical Methods for Parameters Extraction of Photovoltaic Generators

Anani¹,

Ibrahim²

2020

Preprint

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This paper presents a concise exploration of several analytical methods for extracting the parameters of the single-diode model (SDM) of a photovoltaic (PV) module under standard test conditions (STC). The paper investigates six methods and presents the detailed mathematical analysis leading to the development of each method. To evaluate the performance of these methods, MATLAB-based software has been developed and deployed to synthesize the results of each method when used to extract the SDM parameters of various PV test modules of different PV technologies. Similar software has also been developed to extract the same parameters using well-established numerical and iterative techniques. A comparison is subsequently made between the synthesized results and those obtained using numerical and iterative methods. The comparison indicates that in spite of the fact that analytical methods may involve fair amount of approximations, their accuracy can be comparable to that of their numerical and iterative counterparts, with the added advantage of significant reduction in computational complexity, and without the initialization and convergence difficulties, which are normally associated with numerical methods.

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Haider Ibrahim

Variations of PV module parameters with irradiance and temperature

Evaluation of Analytical Methods for Parameter Extraction of PV modules

Adjusting the Single-Diode Model Parameters of a Photovoltaic Module with Irradiance and Temperature

Study of the Effect of Different Configurations of Bypass Diodes on the Performance of a PV String

Performance of Different PV Array Configurations Under Different Partial Shading Conditions

Variation of the performance of a PV panel with the number of bypass diodes and partial shading patterns

Performance Evaluation of Analytical Methods for Parameters Extraction of Photovoltaic Generators

Performance Evaluation of Analytical Methods for Parameters Extraction of Photovoltaic Generators

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