Mathematical model of process of sedimentation of multicomponent suspension on the bottom and changes in the composition of bottom materials

IF 0.3 Q4 MATHEMATICS
A. Sukhinov, A. Chistyakov, A. Atayan, I. Kuznetsova, V. Litvinov, A. Nikitina
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引用次数: 2

Abstract

The paper considers 2D and 3D models of transport of suspended particles, taking into account the following factors: movement of aqueous medium; variable density depending on the suspension concentration; multicomponent character of suspension; changes in bottom geometry as a result of suspension sedimentation. The approximation of the three-dimensional diffusion-convection equation is based on splitting schemes into two-dimensional and one-dimensional problems. In this work, we use discrete analogues of convective and diffusion transfer operators in the case of partial cell occupancy. The geometry of the computational domain is described based on the occupancy function. The difference scheme used is a linear combination of the Upwind and Standard Leapfrog difference schemes with weight coefficients obtained by minimizing the approximation error. This scheme is designed to solve the problem of impurity transfer at large grid Peclet numbers. Based on the results of numerical experiments, conclusions are drawn about the advantage of the 3D model of multicomponent suspension transport in comparison with the 2D model. Computational experiments have been performed to simulate the process of sedimentation of a multicomponent suspension, as well as its effect on the bottom topography and changes in its composition.
多组分悬浮物在底部沉降过程及底部物料组成变化的数学模型
本文考虑了悬浮颗粒的二维和三维输运模型,考虑了以下因素:水介质的运动;根据悬浮液浓度变化密度;悬架的多分量特性;由悬浮沉降引起的底部几何形状的变化。三维扩散-对流方程的近似是基于将格式拆分为二维和一维问题。在这项工作中,我们在部分细胞占用的情况下使用对流和扩散转移算子的离散类似物。基于占位函数描述了计算域的几何形状。所使用的差分格式是逆风差分格式和标准跨越式差分格式的线性组合,其权重系数通过最小化近似误差获得。该方案旨在解决网格小波数较大时的杂质传输问题。在数值实验的基础上,得出了多组分悬浮输运三维模型优于二维模型的结论。通过计算实验模拟了多组分悬浮液的沉降过程,以及其对底部地形和组成变化的影响。
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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CiteScore
1.00
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