Enhanced models for the evaluation of electrical efficiency of PV/T modules

•Novel methodology for the evaluation of the electrical efficiency of PV/T modules.•Different available literature models for PV systems, are extended to PV/T.•The models are based on: cooling fluid temperature, irradiation and incidence angle.•A procedure for calculating the cell temperature of PV/...

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Bibliographic Details
Published in:Solar energy 2021-08, Vol.224, p.531-544
Main Authors: Ventura, Cristina, Tina, Giuseppe Marco, Gagliano, Antonio, Aneli, Stefano
Format: Article
Language:English
Subjects:
Cooling
Cooling fluid temperature
Efficiency
Electrical efficiency
Incidence angle
Methodology
Model accuracy
Modules
Photovoltaic cells
Photovoltaic/thermal
Photovoltaic/thermal module cell temperature
Photovoltaics
Solar energy
Solar radiation
Unglazed photovoltaic/thermal panels
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Summary:•Novel methodology for the evaluation of the electrical efficiency of PV/T modules.•Different available literature models for PV systems, are extended to PV/T.•The models are based on: cooling fluid temperature, irradiation and incidence angle.•A procedure for calculating the cell temperature of PV/T modules is defined.•Experimental data are carried out on an unglazed pilot photovoltaic/thermal plant. Recently increasing attention has been paid on photovoltaic/thermal (PV/T) solar systems as these systems allow to generate heat and electricity simultaneously. Thermal and electrical performance of PV/T modules are coupled, so it is crucial to monitor both efficiencies to decide the optimal operating point. In this context, this paper aims to investigate numerically and experimentally the electrical energy performance of PV/T modules suitable to be used for online monitoring and control purposes. This study proposes a novel methodology for the evaluation of the electrical efficiency of PV/T modules as a function of the temperature of the cooling fluid, the solar radiation and the solar incidence angle. The proposed methodology is based on the calculation of the cell temperature of the PV/T module, which is in turn a function of the temperature of the cooling fluid and the specific features of the PV/T module. Models proposed in the literature for the evaluation of the electrical efficiency for PV modules have been redrafted, adapting them to PV/T modules. The proposed methodology has been validated using the experimental data carried out on an unglazed pilot PV/T plant located in Catania (Italy). The comparison between the calculated data by the developed redrafted models and observed data gives rises to a normalized Root Mean Square Error (nRMSE) of 9.73%. It is worth noticing that the accuracy of the models increases taking into consideration of the dependence of the electrical efficiency from the solar incidence angle (nRMSE equal to 8.99%).
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2021.06.018