Abstract
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.
Highlights
Today, energy generation from renewable energy sources (RES) is very important for humankind, replacing the used fossil energy sources
Sinha et al [33] reviewed 19 pieces of software dedicated to hybrid system design, but few of them are used in the design, and fewer are used for the characterization of the PV-thermoelectric generators (TEGs) hybrid systems (HSs)
The results show that the power generated by the TEG reached the maximum value at 1:30 p.m., which does not correspond to the time of the maximum irradiance
Summary
Energy generation from renewable energy sources (RES) is very important for humankind, replacing the used fossil energy sources. The last one showed the highest influence, decreasing the temperature of the PV panel by 4 ◦ C [5] Another solution for cooling the PV panels is based on water by combining the PV panels with a solar thermal collector, resulting a hybrid photovoltaic thermal (PVT) system [6]. The second way is based on the Peltier effect when the TEM works as a thermoelectric cooler (TEC) In this case, a current is injected through the TEC, creating a temperature difference between its sides that cools the PV panels.
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