Testing of logarithmic-law for the slip with friction boundary condition
Künye
İlhan, Özgül and Şahin, Niyazi. "Testing of logarithmic-law for the slip with friction boundary condition" International Journal of Nonlinear Sciences and Numerical Simulation, vol. , no. , 2022. https://doi.org/10.1515/ijnsns-2021-0184Özet
Large eddy simulation (LES) seeks to predict the dynamics of the organized structures in the flow, that is, local spatial averages (u) over bar of the velocity u of the fluid. Although LES has been extensively used to model turbulent flows, very often, the model has difficulty predicting turbulence generated by interactions of a flow with a boundary. A critical problem in LES is to find appropriate boundary conditions for the flow averages, which depend on the behavior of the unknown flow near the wall. In the light of the works of Navier and Maxwell, we use boundary conditions on the wall. We compute the appropriate friction coefficient beta for channel flows and investigate its asymptotic behavior as the averaging radius delta -> 0 and as the Reynolds number Re -> infinity. No-slip conditions are recovered in the first limit, and free-slip conditions are recovered in the second limit. This study is not intended to develop new theories of the turbulent boundary layer; we use available boundary layer theories to improve numerical boundary conditions for flow averages.