Détails Publication
Numerical Assessment of the thermal efficiency of a concentrated photovoltaic/thermal (CPV/T) hybrid system with air as heat transfer fluid,
Lien de l'article: 10.4236/sgre.2024.151001
Auteur(s): KONFE Amadou, KABORE Boureima, NONGUIERMA Ives Christian, OUEDRAOGO Fatimata, KAM Sié
Auteur(s) tagués: KONFE Amadou
Renseignée par : KONFE Amadou
Résumé

In this paper, we propose a thermal model of a hybrid photovoltaic/thermal concentration system. Starting from the thermal balance of the model, the equation is solved and simulated with a MATLAB code, considering air as the cooling fluid. This enabled us to evaluate some of the parameters influencing the electrical and thermal performance of this device. The results showed that the temperature, thermal efficiency and electrical efficiency delivered depend on the air mass flow rate. The electrical and thermal efficiencies for different values of air mass flow are encouraging, and demonstrate the benefits of cooling photovoltaic cells. The results show that thermal efficiency decreases air flow rate greater than 0.7 kg/s, whatever the value of the light concentration used. The thermal efficiency of the solar cell increases as the light concentration increases, whatever the air flow rate used. For a concentration equal to 30 sun, the thermal efficiency is 0.16 with an air flow rate equal to 0.005 kg/s; the thermal efficiency increases to 0.19 with an air flow rate equal to 0.1 kg/s at the same concentration. An interesting and useful finding was that the proposed numerical model allows the determination of the electrical as well as thermal efficiency of the hybrid CPV/T with air flow as cooling fluid.

Mots-clés

PV Cell, Concentrating, Thermal, Energy Conversion, Cooling, Hybrid System

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