Petru A. Cotfas scite author profile

The temperature is one of the most important factors which affect the performance of the photovoltaic cells and panels along with the irradiance. The current voltage characteristics, I-V, are measured at different temperatures from 25°C to 87°C and at different illumination levels from 400 to 1000 W/m2, because there are locations where the upper limit of the photovoltaic cells working temperature exceeds 80°C. This study reports the influence of the temperature and the irradiance on the important parameters of four commercial photovoltaic cell types: monocrystalline silicon—mSi, polycrystalline silicon—pSi, amorphous silicon—aSi, and multijunction InGaP/InGaAs/Ge (Emcore). The absolute and normalized temperature coefficients are determined and compared with their values from the related literature. The variation of the absolute temperature coefficient function of the irradiance and its significance to accurately determine the important parameters of the photovoltaic cells are also presented. The analysis is made on different types of photovoltaics cells in order to understand the effects of technology on temperature coefficients. The comparison between the open-circuit voltage and short-circuit current was also performed, calculated using the temperature coefficients, determined, and measured, in various conditions. The measurements are realized using the SolarLab system, and the photovoltaic cell parameters are determined and compared using the LabVIEW software created for SolarLab system.

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Experimental and numerical study on the transient behavior of multi-junction solar cell-thermoelectric generator hybrid system

Nezhad

Atouei

Cotfas

et al. 2019

Energy Conversion and Management

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Application of successive discretization algorithm for determining photovoltaic cells parameters

Cotfas

Deaconu

Cotfas

2019

Energy Conversion and Management

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Experimental and numerical investigation of hybrid concentrated photovoltaic – Thermoelectric module under low solar concentration

Mahmoudinezhad

Rezania

Cotfas

et al. 2018

Energy

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Methods and techniques to determine the dynamic parameters of solar cells: Review

Cotfas

Kaplanis

2016

Renewable and Sustainable Energy Reviews

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Comprehensive Review of Methods and Instruments for Photovoltaic–Thermoelectric Generator Hybrid System Characterization

Cotfas

2020

Energies

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Finding new sustainable energy sources or improving the efficiencies of the existing ones represents a very important research and development direction. The hybridization approach is one solution for increasing the efficiency of the existing energy sources. In the case of photovoltaic technology, the hybridization of the photovoltaic panels (PV) with thermoelectric generators (TEGs) has become a more interesting solution for the research community in the last decade. Thus, a comprehensive review of the characterization methods and instruments used in PV-TEG hybrid system study represents the objective of this work. PV and TEG equivalent circuits are presented. The instruments and software applications used for the measurements and simulations are presented and analyzed. The analysis of the literature reveals that there are many papers that offer partial or no information about the instruments used or about the measurement quality (accuracies, uncertainties, etc.). In hybrid system modeling, the preferred software applications are MATLAB (MathWorks, Natick, MA, USA) and COMSOL Multiphysics (Comsol, Burlington, MA, USA), while for experimental studies based on computers, LabVIEW (NI, Austin, TX, USA) is preferred. This review work could be interesting for researchers and engineers who are interested in finding solutions for characterizing or monitoring hybrid system components, but it is not limited to these.

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Multiconcept Methods to Enhance Photovoltaic System Efficiency

Cotfas

2019

International Journal of Photoenergy

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The main goal of this paper is to review the most important methods previously developed to enhance the efficiency and increase the lifetime of photovoltaic panels. The methods to increase the solar radiation incident on photovoltaic panels, as well as the cooling and the maximum power point tracker methods, are concisely presented in this paper. The pros and cons analysis reveals that the methods to enhance the power generated by the photovoltaic panels are strongly dependent on geographical location, climatic conditions, and the materials used. This review paper is also of interest for engineers who attempt to identify the most adequate solutions to maximize the energy output of photovoltaic systems for each location.

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Petru A. Cotfas

Methods to determine the dc parameters of solar cells: A critical review

Study of Temperature Coefficients for Parameters of Photovoltaic Cells

Experimental and numerical study on the transient behavior of multi-junction solar cell-thermoelectric generator hybrid system

Application of successive discretization algorithm for determining photovoltaic cells parameters

Experimental and numerical investigation of hybrid concentrated photovoltaic – Thermoelectric module under low solar concentration

Methods and techniques to determine the dynamic parameters of solar cells: Review

Comprehensive Review of Methods and Instruments for Photovoltaic–Thermoelectric Generator Hybrid System Characterization

Multiconcept Methods to Enhance Photovoltaic System Efficiency

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