Drag reduction of turbulent channel flows over an anisotropic porous wall with reduced spanwise permeability |
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Authors: | Qingxiang LI Ming PAN Quan ZHOU Yuhong DONG |
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Affiliation: | Shanghai Institute of Applied Mathematics and Mechanics;Shanghai Key Laboratory of Mechanics in Energy Engineering |
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Abstract: | The direct numerical simulation(DNS) is carried out for the incompressible viscous turbulent flows over an anisotropic porous wall. Effects of the anisotropic porous wall on turbulence modifications as well as on the turbulent drag reduction are investigated. The simulation is carried out at a friction Reynolds number of 180, which is based on the averaged friction velocity at the interface between the porous medium and the clear fluid domain. The depth of the porous layer ranges from 0.9 to 54 viscous units. The permeability in the spanwise direction is set to be lower than the other directions in the present simulation. The maximum drag reduction obtained is about 15.3% which occurs for a depth of 9 viscous units. The increasing of drag is addressed when the depth of the porous layer is more than 25 wall units. The thinner porous layer restricts the spanwise extension of the streamwise vortices which suppresses the bursting events near the wall. However, for the thicker porous layer, the wall-normal fluctuations are enhanced due to the weakening of the wall-blocking effect which can trigger strong turbulent structures near the wall. |
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Keywords: | direct numerical simulation(DNS) anisotropic porous medium drag reduction turbulent open channel flow |
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