Direct Numerical Simulation of Concentration and Orientation Distribution of Fibers in a Mixing Layer

The concentration and orientation of suspended fibers in a mixing layer are investigated numerically. Two cases (diffusive and nondiffusive) are investigated for the fiber concentration distribution. The fine structures of the instantaneous distributions under these two cases are very different due...

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Published in:Abstract and Applied Analysis 2013-01, Vol.2013 (2013), p.612-619-1164
Main Authors: Zhou, Kun, Yang, Wei, He, Zhu, Xiao, Ming
Format: Article
Language:English
Subjects:
Alignment
Asymptotic properties
Computational fluid dynamics
Engineering research
Fibers
Fluid flow
Fluids
Mathematical research
Molecular dynamics
Numerical analysis
Orientation
Parcels
Properties
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Yang, Wei
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description The concentration and orientation of suspended fibers in a mixing layer are investigated numerically. Two cases (diffusive and nondiffusive) are investigated for the fiber concentration distribution. The fine structures of the instantaneous distributions under these two cases are very different due to molecular diffusion. Sharp front of concentration is observed in the nondiffusive case. However, there is no obvious difference in the mean concentration between the two cases. With regard to the orientation, a fiber may rotate periodically or approach an asymptotic orientation, which is determined by a determinant defined with the stain rate. The symmetric part of the strain rate tends to make a fiber align to an asymptotic orientation, while the antisymmetric part drives a fiber to rotate. When a fluid parcel passes through a region with relatively high shear rate, fibers carried by the fluid parcel are most likely to rotate incessantly. On the other hand, in the region of relatively high extension rate, fibers tend to align to some asymptotic orientation. Generally, fibers tend to align with the shear plane. This fact has significant implications in predicting the rheological properties of fiber suspension flows.
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Two cases (diffusive and nondiffusive) are investigated for the fiber concentration distribution. The fine structures of the instantaneous distributions under these two cases are very different due to molecular diffusion. Sharp front of concentration is observed in the nondiffusive case. However, there is no obvious difference in the mean concentration between the two cases. With regard to the orientation, a fiber may rotate periodically or approach an asymptotic orientation, which is determined by a determinant defined with the stain rate. The symmetric part of the strain rate tends to make a fiber align to an asymptotic orientation, while the antisymmetric part drives a fiber to rotate. When a fluid parcel passes through a region with relatively high shear rate, fibers carried by the fluid parcel are most likely to rotate incessantly. On the other hand, in the region of relatively high extension rate, fibers tend to align to some asymptotic orientation. 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source Wiley Online Library Open Access; Publicly Available Content Database
subjects Alignment
Asymptotic properties
Computational fluid dynamics
Engineering research
Fibers
Fluid flow
Fluids
Mathematical research
Molecular dynamics
Numerical analysis
Orientation
Parcels
Properties
title Direct Numerical Simulation of Concentration and Orientation Distribution of Fibers in a Mixing Layer
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