Numerical and theoretical investigation of pulsatile turbulent channel flows

A turbulent channel flow subjected to imposed harmonic oscillations is studied by direct numerical simulation (DNS) and theoretical models. Simulations have been performed for different pulsation frequencies. The time- and phase-averaged data have been used to analyse the flow. The onset of nonlinea...

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Bibliographic Details
Published in:Journal of fluid mechanics 2016-04, Vol.792, p.98-133
Main Authors: Weng, Chenyang, Boij, Susann, Hanifi, Ardeshir
Format: Article
Language:English
Subjects:
Channel flow
Eddies
Fluid mechanics
Harmonic analysis
Numerical analysis
Reynolds number
Shear stress
turbulence simulation
turbulent boundary layers
Turbulent flow
wave-turbulence interactions
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Summary:A turbulent channel flow subjected to imposed harmonic oscillations is studied by direct numerical simulation (DNS) and theoretical models. Simulations have been performed for different pulsation frequencies. The time- and phase-averaged data have been used to analyse the flow. The onset of nonlinear effects during the production of the perturbation Reynolds stresses is discussed based on the DNS data, and new physical features observed in the DNS are reported. A linear model proposed earlier by the present authors for the coherent perturbation Reynolds shear stress is reviewed and discussed in depth. The model includes the non-equilibrium effects during the response of the Reynolds stress to the imposed periodic shear straining, where a phase lag exists between the stress and the strain. To validate the model, the perturbation velocity and Reynolds shear stress from the model are compared with the DNS data. The performance of the model is found to be good in the frequency range where quasi-static assumptions are invalid. The viscoelastic characteristics of the turbulent eddies implied by the model are supported by the DNS data. Attempts to improve the model are also made by incorporating the DNS data in the model.
ISSN:0022-1120
1469-7645
1469-7645
DOI:10.1017/jfm.2016.73