Analytical modelling, simulation and comparative study of multi-junction (GaInP2/InGaAs/Ge) solar cell efficiency

We present results obtained using MATLAB/Simulink to simulate, experimental data and manufacturer materials specifications of a solar energy generation system (GaInP2/InGaAs/Ge). The simulations were performed by adjusting essential parameters, such as the solar insolation, temperature, and parasiti...

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Main Authors: Al-Ezzi A.S., Ansari M.N.M., Ahmed S.K., Tan N.M.L., Nordin N.A., Nomanbhay S.M.
Other Authors: 57194650534
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Published: Springer 2024
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spelling my.uniten.dspace-340992024-10-14T11:17:57Z Analytical modelling, simulation and comparative study of multi-junction (GaInP2/InGaAs/Ge) solar cell efficiency Al-Ezzi A.S. Ansari M.N.M. Ahmed S.K. Tan N.M.L. Nordin N.A. Nomanbhay S.M. 57194650534 55489853600 25926812900 24537965000 57668989300 57217211137 MATLAB/Simulink Photovoltaic �PV� cell Power conversion efficiency (PCE) P�V and I�V curves Conversion efficiency Electric resistance Incident light Incident solar radiation MATLAB Scanning electron microscopy Specifications Thin film solar cells Cell-be Cell/B.E Cell/BE I - V curve MATLAB/ SIMULINK Photovoltaic �PV� cell Photovoltaics Power conversion efficiencies Power conversion efficiency P�V and I�V curve Solar energy We present results obtained using MATLAB/Simulink to simulate, experimental data and manufacturer materials specifications of a solar energy generation system (GaInP2/InGaAs/Ge). The simulations were performed by adjusting essential parameters, such as the solar insolation, temperature, and parasitic resistance considering their impact on the I�V and P�V characteristics. The project estimated the generated light current at a certain latitude (Malaysia, Kuala Lumpur) with temperatures and insolation variations through the time of year. Modelling and analysis help to understand the characteristics and behaviour of the present PV generator under lab conditions as well as in the real climate of that location. The results also showed that the power obtained is enhanced under higher incident light intensity, whereas it drops while increasing the PV cell temperature. Moreover, the results included parasitic resistors, which have different impact on the output power. The power conversion efficiency is ideal with the highest shunt resistance and inversely proportional to the series resistance. The PV cell was tested by a solar simulator and the experimental results were compared to the simulation measurements and manufacturer specifications of the PV cell. In addition, the PV cell was inspected by scanning electron microscopy equipped with energy dispersive X-ray (EDX) for morphological characterization and elemental composition of the thin film solar cell. � 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature. Final 2024-10-14T03:17:57Z 2024-10-14T03:17:57Z 2023 Article 10.1007/s10825-023-02021-z 2-s2.0-85153874637 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85153874637&doi=10.1007%2fs10825-023-02021-z&partnerID=40&md5=2d8ea7855a0d22c4dd77d9859a253466 https://irepository.uniten.edu.my/handle/123456789/34099 22 4 1048 1060 Springer Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic MATLAB/Simulink
Photovoltaic �PV� cell
Power conversion efficiency (PCE)
P�V and I�V curves
Conversion efficiency
Electric resistance
Incident light
Incident solar radiation
MATLAB
Scanning electron microscopy
Specifications
Thin film solar cells
Cell-be
Cell/B.E
Cell/BE
I - V curve
MATLAB/ SIMULINK
Photovoltaic �PV� cell
Photovoltaics
Power conversion efficiencies
Power conversion efficiency
P�V and I�V curve
Solar energy
spellingShingle MATLAB/Simulink
Photovoltaic �PV� cell
Power conversion efficiency (PCE)
P�V and I�V curves
Conversion efficiency
Electric resistance
Incident light
Incident solar radiation
MATLAB
Scanning electron microscopy
Specifications
Thin film solar cells
Cell-be
Cell/B.E
Cell/BE
I - V curve
MATLAB/ SIMULINK
Photovoltaic �PV� cell
Photovoltaics
Power conversion efficiencies
Power conversion efficiency
P�V and I�V curve
Solar energy
Al-Ezzi A.S.
Ansari M.N.M.
Ahmed S.K.
Tan N.M.L.
Nordin N.A.
Nomanbhay S.M.
Analytical modelling, simulation and comparative study of multi-junction (GaInP2/InGaAs/Ge) solar cell efficiency
description We present results obtained using MATLAB/Simulink to simulate, experimental data and manufacturer materials specifications of a solar energy generation system (GaInP2/InGaAs/Ge). The simulations were performed by adjusting essential parameters, such as the solar insolation, temperature, and parasitic resistance considering their impact on the I�V and P�V characteristics. The project estimated the generated light current at a certain latitude (Malaysia, Kuala Lumpur) with temperatures and insolation variations through the time of year. Modelling and analysis help to understand the characteristics and behaviour of the present PV generator under lab conditions as well as in the real climate of that location. The results also showed that the power obtained is enhanced under higher incident light intensity, whereas it drops while increasing the PV cell temperature. Moreover, the results included parasitic resistors, which have different impact on the output power. The power conversion efficiency is ideal with the highest shunt resistance and inversely proportional to the series resistance. The PV cell was tested by a solar simulator and the experimental results were compared to the simulation measurements and manufacturer specifications of the PV cell. In addition, the PV cell was inspected by scanning electron microscopy equipped with energy dispersive X-ray (EDX) for morphological characterization and elemental composition of the thin film solar cell. � 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
author2 57194650534
author_facet 57194650534
Al-Ezzi A.S.
Ansari M.N.M.
Ahmed S.K.
Tan N.M.L.
Nordin N.A.
Nomanbhay S.M.
format Article
author Al-Ezzi A.S.
Ansari M.N.M.
Ahmed S.K.
Tan N.M.L.
Nordin N.A.
Nomanbhay S.M.
author_sort Al-Ezzi A.S.
title Analytical modelling, simulation and comparative study of multi-junction (GaInP2/InGaAs/Ge) solar cell efficiency
title_short Analytical modelling, simulation and comparative study of multi-junction (GaInP2/InGaAs/Ge) solar cell efficiency
title_full Analytical modelling, simulation and comparative study of multi-junction (GaInP2/InGaAs/Ge) solar cell efficiency
title_fullStr Analytical modelling, simulation and comparative study of multi-junction (GaInP2/InGaAs/Ge) solar cell efficiency
title_full_unstemmed Analytical modelling, simulation and comparative study of multi-junction (GaInP2/InGaAs/Ge) solar cell efficiency
title_sort analytical modelling, simulation and comparative study of multi-junction (gainp2/ingaas/ge) solar cell efficiency
publisher Springer
publishDate 2024
_version_ 1814060057613041664
score 13.214268