LOCALIZED SINGULAR BOUNDARY METHOD FOR SOLVING THE CONVECTION–DIFFUSION EQUATION WITH VARIABLE VELOCITY FIELD

WIT transactions on engineering sciences Pub Date : 2022-08-02 DOI:10.2495/be450101
J. Mužík, R. Bulko
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Abstract

This paper focuses on deriving the local variant of the singular boundary method (SBM) to solve the convection–diffusion equation. Adopting the combination of an SBM and finite collocation, one obtains the localized variant of SBM. Unlike the global variant, local SBM leads to a sparse matrix of the resulting system of equations, making it much more efficient to solve large-scale tasks. It also allows solving velocity vector variable tasks, which is a problem with global SBM. The article presents the steady numerical example for the convection–diffusion problem with variable velocity field and examines the dependence of the accuracy of the solution on the nodal grid’s density and the subdomain’s size.
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求解变速场对流扩散方程的局部奇异边界法
本文重点推导了求解对流扩散方程的奇异边界法(SBM)的局部变体。将SBM与有限配置相结合,得到了SBM的局部化形式。与全局变量不同,局部SBM导致结果方程组的稀疏矩阵,使其更有效地解决大规模任务。它还允许求解速度矢量可变任务,这是全局SBM的一个问题。本文给出了变速场对流扩散问题的定常数值算例,并考察了解的精度与节点网格密度和子域大小的关系。
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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来源期刊
WIT transactions on engineering sciences
WIT transactions on engineering sciences
CiteScore
1.20
自引率
0.00%
发文量
0
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