Polymer-turbulence interactions in a complex flow and implications for the drag reduction phenomenon

Author:

Lin Che-Yu1ORCID,Owolabi Bayode E.2ORCID,Lin Chao-An1ORCID

Affiliation:

1. Department of Power Mechanical Engineering, National Tsing Hua University, Hsinchu 30013, Taiwan

2. Núcleo Interdisciplinar de Dinâmica dos Fluidos, Universidade Federal do Rio de Janeiro, Rio de Janeiro 21941-594, Brazil

Abstract

We present direct numerical simulation data for turbulent duct flow of a finite-extensibility non-linear elastic dumbbell model with the Peterlin approximation (FENE-P) fluid in the high drag reduction regime. While the secondary flow pattern is qualitatively similar to that in a Newtonian fluid, its magnitude is significantly reduced, resulting in a less uniformly distributed velocity profile and hence smaller gradients at the wall. The Reynolds stress tensor in the polymer-laden flow was found to be increasingly anisotropic with most of the turbulent kinetic energy retained in the streamwise component, [Formula: see text]. We introduce a novel approach for investigating polymer stretching using the anisotropy invariant map of the polymer stress tensor and observe the persistence of both uniaxial and biaxial extension. Analysis of the transport equation for the mean kinetic energy indicates that polymer stretching and relaxation is a highly dissipative process; hence, the introduction of an additional channel for dissipation in a flow is key to drag reduction.

Funder

Institute for Information Industry, Ministry of Science and Technology, Taiwan

Publisher

AIP Publishing

Subject

Condensed Matter Physics,Fluid Flow and Transfer Processes,Mechanics of Materials,Computational Mechanics,Mechanical Engineering

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