Comparative simulation analyses on dynamic performances of photovoltaic–thermal solar collectors with different configurations

• Recent developments of the PV/T systems were summarized.
• The dynamic model of the PV/T system with different configurations was developed.
• The performance parameters were derived to conduct comparative analyses.
• The performances of the PV/T system were evaluated and analyzed.
• The PV/T configurations have influences on the performances of the PV/T system.

The electrical efficiency of photovoltaic (PV) module can be increased by reducing the operating temperature of PV module. The hybrid photovoltaic/thermal (PV/T) solar system consists of conventional PV module and attached heat transfer pipe with internal working fluid flowing to extract heat energy from PV module. This article presents a brief review on the latest researches and applications of the PV/T systems. Afterwards, based on energy-balance equations, mathematical models for several PV/T systems with different configurations are developed. Analytical expressions for both the electrical and thermal performance parameters are derived as functions of climatic and design parameters to conduct comparative analyses. The calculation results indicate that the changes in the PV/T configurations have influences on electrical and thermal performances of the PV/T system. Further suggestions on configurations optimization for practical applications are propounded.

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