An experimental study of heat transfer in oscillating flow through a channel filled with an aluminum foam

Abstract An experimental study has been conducted on the heat transfer of oscillating flow through a channel filled with aluminum foam subjected to a constant wall heat flux. The surface temperature distribution on the wall, velocity of flow through porous channel and pressure drop across the test section were measured. The characteristics of pressure drop, the effects of the dimensionless amplitude of displacement and dimensionless frequency of oscillating flow on heat transfer in porous channel were analyzed. The results revealed that the heat transfer in oscillating flow is significantly enhanced by employing porous media in a plate channel. The cycle-averaged local Nusselt number increases with both the kinetic Reynolds number Re ω and the dimensionless amplitude of flow displacement A 0 . The length-averaged Nusselt number is effectively increased by increasing the kinetic Reynolds number from 178 to 874 for A 0  = 3.1–4.1. Based on the experimental data, a correlation equation of the length-averaged Nusselt number with the dimensionless parameters of Re ω and A 0 is obtained for a porous channel with L / D h  = 3.