Study of Models Using One or Two Exponentials to Simulate the Characteristic Current-voltage of Silicon Solar Cells

被引:0
作者
Sari-Ali I. [1 ]
Benyoucef B. [1 ]
Chikh-Bled B. [1 ]
Menni Y. [1 ]
Chamkha A.J. [2 ]
Lorenzini G. [3 ]
机构
[1] Unit of Research on Materials and Renewable Energies, Department of Physics, Faculty of Sciences, Abou Bekr Belkaid University, B.P. 119, Tlemcen
[2] Mechanical Engineering Department, Prince Sultan Endowment for Energy and Environment, Prince Mohammad Bin Fahd University, Al-Khobar
[3] Department of Engineering and Architecture, University of Parma, Parco Area delle Scienze, 181/A, Parma
来源
European Journal of Electrical Engineering | 2019年 / 21卷 / 03期
关键词
Characteristic current-voltage of solar cell; Production of electricity; Silicon; Solar cell efficiency; Solar cells with high efficiency and low cost;
D O I
10.18280/ejee.210304
中图分类号
学科分类号
摘要
The production of electricity based on the conversion of the sunlight by photocells crystalline silicon is the most way using on technological and industrial plan. As a consequence, the development of the applications of energy production requires cells with high efficiency and low cost. We propose two models using either one or two exponentials allowing to simulate the characteristic current-voltage of a solar cell. The goal of our work is to present a comparative study between the model theoretical and experimental aiming at the improvement of the solar cell efficiency. We also determine the parameters of the solar cell from the current-voltage curve. Additionally, we provide a justification for using the two exponential models for improving the cell efficiency. The model with two exponential allowing to investigate the phenomena of recombination in zone of diffusion and space charge in the areas quasi-neutrals of the transmitter and the base. This study underlines the insufficiency of the model to exponential generally used by showing that it leads to the design of the ideal solar cells whereas structures characterized by a factor of quality greater outcome with high efficiency. © 2019 Lavoisier. All rights reserved.
引用
收藏
页码:285 / 289
页数:4
相关论文
共 23 条
[1]  
Zerga A., Optimisation Du Rendement d'Une Cellule Solaire Àbase de Silicium Monocristallin de Type N+P, (1998)
[2]  
Enebish N., Agachbayar D., Dorjkhand S., Baatar D., Ulemj I., Numerical analysis of solar cells current-voltage characteristic, Solar Energy Materials and Solar Cells, 29, pp. 201-208, (1993)
[3]  
Lakeh H.K., Kaatuzian H., Hosseini R., A parametrical study on photo-electro-thermal performance of an integrated thermoelectric-photovoltaic cell, Renewable Energy, 138, pp. 542-550, (2019)
[4]  
Jeong Y., Shin D., Park J.H., Park J., Yi Y., Im S., Integrated advantages from perovskite photovoltaic cell and 2D MoTe2 transistor towards self-power energy harvesting and photosensing, Nano Energy, 63, (2019)
[5]  
Antonacci A., Scognamiglio V., Photosynthesis-based hybrid nanostructures: Electrochemical sensors and photovoltaic cells as case studies, TrAC Trends in Analytical Chemistry, 115, pp. 100-109, (2019)
[6]  
Gruber M., Jovanov V., Wagner V., Modeling of photoactive area spreading in unstructured photovoltaic cells, Solar Energy Materials and Solar Cells, 200, (2019)
[7]  
Katayama N., Osawa S., Matsumoto S., Nakano T., Sugiyama M., Degradation and fault diagnosis of photovoltaic cells using impedance spectroscopy, Solar Energy Materials and Solar Cells, 194, pp. 130-136, (2019)
[8]  
Hernandez-Callejo L., Gallardo-Saavedra S., Alonso-Gomez V., A review of photovoltaic systems: Design, operation and maintenance, Solar Energy, 188, pp. 426-440, (2019)
[9]  
Quan L., Xie K., Liu Y., Zhang H., Camera enhanced compressive light beam induced current sensing for efficient defect detection in photovoltaic cells, Solar Energy, 183, pp. 212-217, (2019)
[10]  
Alcaniz A., Lopez G., Martin I., Jimenez A., Datas A., Calle E., Rosa E., Gerling L.G., Voz C., Del Canizo C., Alcubilla R., Germanium photovoltaic cells with MoOx hole-selective contacts, Solar Energy, 181, pp. 357-360, (2019)
123