@ARTICLE{Wajs_Jan_Assessment_2024, author={Wajs, Jan and Lukasik, Jakub}, volume={vol. 45}, number={No 2}, journal={Archives of Thermodynamics}, pages={5-18}, howpublished={online}, year={2024}, publisher={The Committee of Thermodynamics and Combustion of the Polish Academy of Sciences and The Institute of Fluid-Flow Machinery Polish Academy of Sciences}, abstract={The paper concerns a numerical analysis of cooling of the hybrid photovoltaic (PV) modules dedicated to Building-Inte-grated Photovoltaic/Thermal (BIPV/T) systems. Attention was focused on the photovoltaic roof tiles, using a jet impinge-ment technique, in which the intensification of heat transfer is ensured by streams of air hitting the heat exchange partition. A series of numerical simulations were carried out to assess an influence of the distance of the nozzle outlet from the absorber surface on the values of selected thermal-hydraulic performance indicators and the electrical parameters of the roof tile. The results confirmed the high effectiveness of the proposed method. The best effect was obtained for the case in which the relative distance of the nozzle from the partition to the nozzle diameter was equal to 1. For the mentioned configuration, an over 4 times increase in the value of the heat transfer coefficient was obtained in relation to the reference variant of cooling roof tiles. At the same time, the relative increase in the value of the generated electrical power was from 2.9 to 7.8%, depending on the value of the Reynolds number characterising the flow.}, type={Article}, title={Assessment of the impact of jet impingement technique on the energy efficiency of air-cooled BIPV/T roof tile}, URL={http://www.journals.pan.pl/Content/131560/1_AoT_00637_2023_Wajs.pdf}, doi={10.24425/ather.2024.150847}, keywords={Impinging jet, Building-Integrated Photovoltaic/Thermal (BIPV/T), Numerical analysis, Photovoltaic roof tile, Air cooling}, }