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各向异性扩散问题的一个单元中心型有限体积格式 被引量:2

A Cell-centered Finite Volume Scheme for Anisotropic Diffusion Problems
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摘要 在辐射流体力学的数值模拟中,扩散算子的高效高精度离散是一个十分重要的问题.本文研究各向异性扩散方程在任意多边形网格上的数值求解问题,我们利用调和平均点和线性精确方法,构造了一个单元中心型有限体积格式.该格式只含有单元中心未知量,满足局部守恒条件,有紧凑的计算模板,在结构四边形网格上退化为一个九点格式.由于调和平均点插值算法是一个具有两点模板的二阶保正算法,因此,采用单元边上的调和平均点为插值节点,使得离散格式十分简洁,容易实施.此外,我们在格式构造中仅采用了二、三维网格的共有拓扑关系,使格式容易向三维问题推广,大部分程序代码可实现二、三维公用.我们采用典型的大变形扭曲网格及典型的扩散算例(包括连续和间断的扩散张量)对所提出的新格式进行了测试,数值算例表明,新格式在许多扭曲的多边形网格上具有二阶精度. An accurate and effective discretization of diffusion operators is very important in some practical applications such as radiation hydrodynamics. In this paper, we discuss the numerical solution of anisotropic diffusion problems on arbitrary polygonal meshes. A cell- centered finite volume scheme is constructed based on the harmonic averaging point through a certain linearity-preserving approach. The new scheme has only cell-centered unknowns, is locally conservative and has a compact stencil, which reduces to a nine-point scheme on structured quadrilateral meshes. Since the interpolation algorithm based on the harmonic averaging point is a two-stencil and positivity-preserving one, the construction of the scheme is largely simplified. Moreover, since we only use the common topology of 2D and 3D meshes, the extension of the new scheme to the 3D case is very easy and most of codes can be shared. In numerical experiments, we employ some typical distorted meshes and diffusion problems with both continuous and discontinuous coefficients to test our scheme. Numerical results show that the new scheme has a second-order accuracy on many distorted polygonal meshes.
作者 骆龙山 高志明 邬吉明
机构地区 中国工程物理研究院研究生部 北京应用物理与计算数学研究所
出处 《工程数学学报》 CSCD 北大核心 2015年第3期359-368,共10页 Chinese Journal of Engineering Mathematics
基金 国家自然科学基金(91330107 11071024 11271053)~~
关键词 扩散方程 任意多边形网格 单元中心型有限体积格式 线性精确 调和平均点 diffusion equation arbitrary polygonal mesh cell-centered finite volume scheme linearity-preserving criterion harmonic averaging point
分类号 O241.82 [理学—计算数学]
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参考文献9

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工程数学学报
2015年 第3期

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