Influence of multiple factors on performance of photovoltaic-thermal modules
Autor: | Pang Wei, Hui Yan, Benjamin C. Duck, Wenkang Zhao, Christopher J. Fell, Gregory J. Wilson |
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Rok vydání: | 2021 |
Předmět: |
Pressure drop
Materials science Renewable Energy Sustainability and the Environment 020209 energy Nuclear engineering Photovoltaic system 02 engineering and technology Thermal transfer 021001 nanoscience & nanotechnology Finite element method Flow velocity Operating temperature Thermal 0202 electrical engineering electronic engineering information engineering General Materials Science Transient (oscillation) 0210 nano-technology |
Zdroj: | Solar Energy. 214:642-654 |
ISSN: | 0038-092X |
Popis: | In this paper, an analysis of three-dimensional transient thermal transfer is presented to evaluate the performance of a photovoltaic thermal module with an optimize structural design, incorporating direct use of an aluminum collector as the substrate. The effect of cross-sectional geometries and ratios of size and spacing was considered to optimize the performance of a photovoltaic-thermal (PVT) module. The temperature, velocity and pressure distributions were demonstrated in a steady state model using a finite element method. Simulation results indicated the temperature of the PVT module was increased by the solar irradiation incident with the panel, yet overall decreased by an increased flow velocity. In this study, we examine seven types of media used as the medium to cool the PVT module, where water was preferred, due to its higher specific heat capacity. Further, for multiple interconnected PVT modules, connecting method in parallel and series resulted in pressure drop for the PVT module. In addition, the simulations were compared to experimental data providing validation of the estimated operating temperature in agreement with simulation results, and the outcomes will provide an indication for preferred assembly of PVT modules for application in building integration and future product design. |
Databáze: | OpenAIRE |
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