Flow instabilities in circular Couette flow of wormlike micelle solutions with a reentrant flow curve

IF 2.7 2区 工程技术 Q2 MECHANICS
Richard J. Hommel, Michael D. Graham
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引用次数: 0

Abstract

In this work, we numerically investigate flow instabilities of inertialess circular Couette flow of dilute wormlike micelle solutions. Using the reformulated reactive rod model (RRM-R) (Hommel and Graham, 2021), which treats micelles as rigid Brownian rods undergoing reversible scission and fusion in flow, we study the development and behavior of both vorticity banding and finger-like instabilities. In particular, we focus on solutions that exhibit reentrant constitutive curves, in which there exists some region where the shear stress, τ, has a multivalued relation to shear rate, γ̇. We find that the radial dependence of the shear stress in circular Couette flow allows for solutions in which parts of the domain lie in the region of the flow curve where τ/γ̇>0, while others lie in the region where τ/γ̇<0; this mixed behavior can lead to complex flow instabilities that manifest as finger-like structures of elongated and anisotropically-oriented micelles. In 3D simulations we find that the initial instability is 2D in origin, and 3D finger-like structures arise through the axial instability of 2D sheets. Finally, we show that the RRM-R can capture vorticity banding in narrow-gap circular Couette flow and that vorticity bands are linearly stable to perturbations.

具有重入流曲线的蠕虫状胶束溶液在环形库埃特流中的流动不稳定性
在这项研究中,我们对稀蠕虫状胶束溶液的无惯性环形库埃特流的流动不稳定性进行了数值研究。使用重新制定的反应棒模型(RRM-R)(Hommel 和 Graham,2021 年),我们研究了涡度带状和指状不稳定性的发展和行为。特别是,我们重点研究了表现出重入构成曲线的解,其中存在剪应力τ与剪切速率γ具有多值关系的区域。我们发现,环形库埃特流中剪应力的径向依赖性使得部分区域位于流动曲线的∂τ/∂γ̇>0 区域,而其他区域位于∂τ/∂γ̇<0 区域;这种混合行为可导致复杂的流动不稳定性,表现为拉长和各向异性胶束的指状结构。在三维模拟中,我们发现初始不稳定性源于二维,而三维指状结构则是通过二维薄片的轴向不稳定性产生的。最后,我们证明 RRM-R 可以捕捉窄间隙环形库特流中的涡度带,并且涡度带对扰动具有线性稳定性。
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来源期刊
CiteScore
5.00
自引率
19.40%
发文量
109
审稿时长
61 days
期刊介绍: The Journal of Non-Newtonian Fluid Mechanics publishes research on flowing soft matter systems. Submissions in all areas of flowing complex fluids are welcomed, including polymer melts and solutions, suspensions, colloids, surfactant solutions, biological fluids, gels, liquid crystals and granular materials. Flow problems relevant to microfluidics, lab-on-a-chip, nanofluidics, biological flows, geophysical flows, industrial processes and other applications are of interest. Subjects considered suitable for the journal include the following (not necessarily in order of importance): Theoretical, computational and experimental studies of naturally or technologically relevant flow problems where the non-Newtonian nature of the fluid is important in determining the character of the flow. We seek in particular studies that lend mechanistic insight into flow behavior in complex fluids or highlight flow phenomena unique to complex fluids. Examples include Instabilities, unsteady and turbulent or chaotic flow characteristics in non-Newtonian fluids, Multiphase flows involving complex fluids, Problems involving transport phenomena such as heat and mass transfer and mixing, to the extent that the non-Newtonian flow behavior is central to the transport phenomena, Novel flow situations that suggest the need for further theoretical study, Practical situations of flow that are in need of systematic theoretical and experimental research. Such issues and developments commonly arise, for example, in the polymer processing, petroleum, pharmaceutical, biomedical and consumer product industries.
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