Research on flow structure and heat transfer mechanism of windward bend lattice frame

The lightweight lattice sandwich structure is considered a promising heat transfer technology with broad application prospects for improving the heat dissipation capacity of thermal management systems. The heat transfer performance needs to be further researched urgently. In this study, the flow resistance and heat transfer characteristics of windward bend lattice frames with heat transfer and mechanical load capacity were investigated by experimental and numerical methods. The flow mechanism and enhanced heat transfer mechanism of windward bend lattice frame was revealed from the point of view of unit structure. The results show that the bending shape alters the flow state of the fluid in the passage within the windward bend lattice frame truss to enhance the mixing effect of high-temperature and low-temperature fluids in the passage. Additionally, as the angle of inclination increases, there is a significant improvement in local flow resistance characteristics and enhanced heat transfer performance due to deflection in movement direction and rotation direction of inverse spiral vortex at rear truss rod. Furthermore, it is observed that at constant pumping power, the changes in Angle of inclination significantly affect heat transfer on different surfaces: lower surface (increasing by 101%), upper surface (increasing by 57%), followed by end wall (increasing by 16%). This work has valuable engineering applications for structures with similar bending characteristics.