MA Martien Hulsen scite author profile

We have also computed the various contributions to the pressure fluctuations and identified how these change as a function of drag reduction. Finally, we discuss some cross-correlations and various length scales. These simulation results are explained here by two mechanisms. First, as suggested by Lumley (1969) the polymers damp the cross-stream or wall-normal velocity fluctuations and suppress the bursting in the buffer layer. Secondly, the 'shear sheltering' mechanism acts to amplify the streamwise fluctuations in the thickened buffer layer, while reducing and decoupling the motions within and above this layer. The expression for the substantial reduction in the wall drag derived by considering the long time scales of the nonlinear fluctuations of this damped shear layer, is shown to be consistent with the experimental data of Virk et al. (1967) and Virk (1975).

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Simulation of viscoelastic flows using Brownian configuration fields

Hulsen

Heel

Brule

1997

Journal of Non-Newtonian Fluid Mechanics

231

183

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Direct simulations of particle suspensions in a viscoelastic fluid in sliding bi-periodic frames

Hwang

Hulsen

Meijer

2004

Journal of Non-Newtonian Fluid Mechanics

121

132

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Drag reduction by polymer additives in a turbulent pipe flow: numerical and laboratory experiments

et al. 1997

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Particle motion in square channel flow of a viscoelastic liquid: Migration vs. secondary flows

Villone

D’Avino

Hulsen

et al. 2013

Journal of Non-Newtonian Fluid Mechanics

102

124

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