CFD Numerical Modelling of a PV-TEG Hybrid System Cooled by Air Heat Sink Coupled with a Single-Phase Inverter

This study presents full transient, three-dimensional numerical models of a PV-TEG hybrid module coupled with single-phase inverter by co-simulation. The influence of factors, such as wind speed, solar radiation intensity, or ambient temperature on the PV-TEG system, was also examined. The numerical model was implemented using Ansys software which accounted the phenomena of Thomson, Seebeck, and Joule's heat place on the TEG system. Furthermore, its impact on total electrical efficiency was studied. The heat transfer surface of the passive heat sink and forced air circulation positively affected the total heat transfer, and therefore helped to maintain the electrical efficiency at a higher level. Simulation of the single-phase inverter with a PV-TEG system allows the determination of the power characteristics of the system in real time. The results of the study presented may provide a basis for performance optimization of a practical PV-TEG-inverter hybrid system co-design.

Automated summary

This study developed full transient, three-dimensional numerical models of a PV-TEG hybrid module with a single-phase inverter through co-simulation, examining the impact of various factors on the system. Analysis of the heat transfer surface area and forced air circulation showed a positive effect on total heat transfer, contributing to maintaining higher electrical efficiency.