Numerical simulations of turbulent heat transfer in a channel with one wavy wall

Abstract

Wavy surfaces are encountered in a large variety of applications, and are well-known for enhancing heat and mass transfer mechanisms. The present study numerically investigates the flow dynamic and heat transfer for turbulent flow in a channel with one flat and one wavy wall. I nvestigations have been conducted for a Prandtl number Pr = 0.71 and Reynolds numbers Re = 13840 and Re = 19000, based on the bulk velocity and the hydraulic diameter. Direct Numerical Simulations (DNSs) have been performed for a deep understanding of the dynamic effects on the heat transfer mechanisms for the case of turbulent flow in the channel with one wavy wall. The performance of two different Reynolds-Averaged Navier Stokes (RANS) turbulence models, namely the k-! SST and theq-�, selected for their favorable characteristics, is assesse d against the DNSs results. The applicability of the two selected RANS model is ascertained from a qualitative point of view.