Abstract

AbstractLarge‐eddy simulation results are presented and discussed for turbulent flow and heat transfer in a plane channel with and without transverse square ribs on one of the walls. They were obtained with the finite‐difference code Harwell‐FLOW3D, Release 2, by using the PISOC pressure‐velocity coupling algorithm, central differencing in space, and Crank‐Nicolson time stepping. A simple Smagorinsky model, with van Driest damping near the walls, was implemented to model subgrid scale effects. Periodic boundary conditions were imposed in the streamwise and spanwise directions. The Reynolds number based on hydraulic diameter (twice the channel height) ranged from 10 000 to 40 000. Results are compared with experimental data, k‐ϵ predictions, and previous large‐eddy simulations.

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