非牛顿流体对二维流动中悬浮颗粒平衡位置和相对粘度影响的数值分析

Fluids Pub Date : 2024-02-01 DOI:10.3390/fluids9020037

Keiya Tomioka, Tomohiro Fukui

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摘要

悬浮液中的溶剂通常具有非牛顿特性。迄今为止，为了确定这些特性，已经提出了许多构成方程。特别是幂律流体，它既能描述膨胀流体，也能描述假塑性流体，由于其简单性，在以往的许多研究中都被采用。然后是 Herschel-Bulkley 模型，它描述的是具有屈服应力的流体。在本研究中，我们使用正则化晶格玻尔兹曼流体方法和粒子双向耦合方案，考虑了非牛顿溶剂如何影响粒子的平衡位置和相对粘度。我们集中使用这些方法来评估溶剂的非牛顿效应。与牛顿流体或幂律流体相比，宾汉流体的平衡位置更靠近壁面。相反，宾汉流体中每个位置的相对粘度趋势与幂律流体相似。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Numerical Analysis of Non-Newtonian Fluid Effects on the Equilibrium Position of a Suspended Particle and Relative Viscosity in Two-Dimensional Flow

A solvent in suspension often has non-Newtonian properties. To date, in order to determine these properties, many constitutive equations have been suggested. In particular, power-law fluid, which describes both dilatant and pseudoplastic fluids, has been used in many previous studies because of its simplicity. Then, the Herschel–Bulkley model is used, which describes fluid with yield stress. In this study, we considered how a non-Newtonian solvent affected the equilibrium position of a particle and relative viscosity using the regularized lattice Boltzmann method for fluid and a two-way coupling scheme for the particle. We focused on these methods so as to evaluate the non-Newtonian effects of a solvent. The equilibrium position in Bingham fluid was closer to the wall than that in Newtonian or power-law fluid. In contrast, the tendency of relative viscosity in Bingham fluid for each position was similar to that in power-law fluid.

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Fluids

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