浸入式边界-晶格玻尔兹曼法在流体柱中的双固体沉积

Q4 Chemical Engineering

Applied and Computational Mechanics Pub Date : 2021-07-01 DOI:10.22055/JACM.2021.37140.2969

M. R. Arbie, U. Fauzi, F. Latief, E. Mustopa

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引用次数: 0

摘要

流体中的固体沉积可能涉及具有不同密度和尺寸的固体，并且可能发生在静止流体中，或者更确切地说发生在逆流中。我们对密度比、尺寸比和初始配置对有或无逆流的流体通道中两个圆形固体沉降的作用进行了数值研究。通过这项研究，我们展示了如何控制两种固体的沉降动力学。采用基于耦合浸没边界格子Boltzmann的数值实验。结果表明，随着时间的推移，一定的参数集会导致导向沉积，而密度较大的固体会离开密度较小的固体。然而，某些参数集会导致周期性的近距离相遇，这在存在类泊肃叶逆流的情况下是稳健的。在这种情况下，两种固体之间的分离在沉积过程中受到限制。

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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Two-Solid Deposition in Fluid Column using Immersed Boundary-Lattice Boltzmann Method

Solid deposition in fluid may involve solids with different density and size and may happen in quiescent fluid or rather in counter flow. We perform a numerical investigation on the role of density-ratios, size-ratio, and initial configuration on the settling of two circular solids in a fluid channel with or without counter-flow. Through this study, we show how settling dynamics of two solids can be controlled. Numerical experiment based on a coupled Immersed Boundary-Lattice Boltzmann is employed. It is shown that certain parameter set leads to guided deposition while denser solid leaves the less dense one as time progressing. However, certain parameter set leads to periodic close encounters which is robust in the presence of Poiseuille-like counter-flow. In this case, the separation between two solids is bounded during the deposition.

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来源期刊

Applied and Computational Mechanics Engineering-Computational Mechanics

CiteScore

0.80

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： The ACM journal covers a broad spectrum of topics in all fields of applied and computational mechanics with special emphasis on mathematical modelling and numerical simulations with experimental support, if relevant. Our audience is the international scientific community, academics as well as engineers interested in such disciplines. Original research papers falling into the following areas are considered for possible publication: solid mechanics, mechanics of materials, thermodynamics, biomechanics and mechanobiology, fluid-structure interaction, dynamics of multibody systems, mechatronics, vibrations and waves, reliability and durability of structures, structural damage and fracture mechanics, heterogenous media and multiscale problems, structural mechanics, experimental methods in mechanics. This list is neither exhaustive nor fixed.