abstract
According to the concept of heat transfer enhancement in the core flow, porous media with a slightly
smaller diameter to a tube are developed and inserted in the core of the tube under the constant and uniform
heat flux condition. The flow resistance and heat transfer characteristics of the air flow for laminar
to fully turbulent ranges of Reynolds numbers are investigated experimentally and numerically. There are
three different porous media used in the experiments with porosity of 0.951, 0.966 and 0.975, respectively.
The effect of porous radius ratio on the heat transfer performance is studied in numerical simulation.
Both numerical and experimental results show that the convective heat transfer is considerably
enhanced by the porous inserts of an approximate diameter with the tube and the corresponding flow
resistance increases in a reasonable extent especially in laminar flow. It shows that the core flow
enhancement is an efficacious method for enhancing heat transfer.