Perspective on the description of viscoelastic flows via continuum elastic dumbbell models

IF 1.4 4区工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY Journal of Engineering Mathematics Pub Date : 2024-06-25 DOI:10.1007/s10665-024-10374-y

Evgeniy Boyko, Howard A. Stone

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Abstract

Non-Newtonian fluid mechanics and computational rheology widely exploit elastic dumbbell models such as Oldroyd-B and FENE-P for a continuum description of viscoelastic fluid flows. However, these constitutive equations fail to accurately capture some characteristics of realistic polymers, such as the steady extension in simple shear and extensional flows, thus questioning the ability of continuum-level modeling to predict the hydrodynamic behavior of viscoelastic fluids in more complex flows. Here, we present seven elastic dumbbell models, which include different microstructurally inspired terms, i.e., (i) the finite polymer extensibility, (ii) the conformation-dependent friction coefficient, and (iii) the conformation-dependent non-affine deformation. We provide the expressions for the steady dumbbell extension in shear and extensional flows and the corresponding viscosities for various elastic dumbbell models incorporating different microscopic features. We show the necessity of including these microscopic features in a constitutive equation to reproduce the experimentally observed polymer extension in shear and extensional flows, highlighting their potential significance in accurately modeling viscoelastic channel flow with mixed kinematics.

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通过连续弹性哑铃模型描述粘弹性流动的视角

非牛顿流体力学和计算流变学广泛利用弹性哑铃模型（如 Oldroyd-B 和 FENE-P）来连续描述粘弹性流体流动。然而，这些构成方程无法准确捕捉现实聚合物的某些特性，例如在简单剪切和伸展流动中的稳定伸展，从而质疑了连续级模型预测粘弹性流体在更复杂流动中的流体力学行为的能力。在此，我们提出了七个弹性哑铃模型，其中包括不同的微观结构启发项，即 (i) 有限聚合物延伸性、(ii) 与构象相关的摩擦系数和 (iii) 与构象相关的非非线性变形。我们为包含不同微观特征的各种弹性哑铃模型提供了剪切流和伸展流中哑铃稳定伸展的表达式以及相应的粘度。我们证明了在构成方程中包含这些微观特征对再现实验观察到的剪切流和延伸流中聚合物延伸的必要性，并强调了它们在精确模拟具有混合运动学的粘弹性通道流中的潜在意义。

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来源期刊

Journal of Engineering Mathematics 工程技术-工程：综合

CiteScore

2.10

自引率

7.70%

发文量

审稿时长

6 months

期刊介绍： The aim of this journal is to promote the application of mathematics to problems from engineering and the applied sciences. It also aims to emphasize the intrinsic unity, through mathematics, of the fundamental problems of applied and engineering science. The scope of the journal includes the following: • Mathematics: Ordinary and partial differential equations, Integral equations, Asymptotics, Variational and functional−analytic methods, Numerical analysis, Computational methods. • Applied Fields: Continuum mechanics, Stability theory, Wave propagation, Diffusion, Heat and mass transfer, Free−boundary problems; Fluid mechanics: Aero− and hydrodynamics, Boundary layers, Shock waves, Fluid machinery, Fluid−structure interactions, Convection, Combustion, Acoustics, Multi−phase flows, Transition and turbulence, Creeping flow, Rheology, Porous−media flows, Ocean engineering, Atmospheric engineering, Non-Newtonian flows, Ship hydrodynamics; Solid mechanics: Elasticity, Classical mechanics, Nonlinear mechanics, Vibrations, Plates and shells, Fracture mechanics; Biomedical engineering, Geophysical engineering, Reaction−diffusion problems; and related areas. The Journal also publishes occasional invited ''Perspectives'' articles by distinguished researchers reviewing and bringing their authoritative overview to recent developments in topics of current interest in their area of expertise. Authors wishing to suggest topics for such articles should contact the Editors-in-Chief directly. Prospective authors are encouraged to consult recent issues of the journal in order to judge whether or not their manuscript is consistent with the style and content of published papers.