求解突然膨胀通道层流问题的数值方案比较

Q3 Mathematics

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Pub Date : 2023-02-01 DOI:10.18698/1812-3368-2023-1-4-22

M. Madaliev

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引用次数: 0

摘要

本文研究了具有突然膨胀(x/h = 2)的二维通道中的流体流动。基于非平稳Navier—Stokes方程的数值积分计算了层流模式。在Re = 100—800时测定了各种流动特性。得到了步进后不同雷诺数下不同通道段的纵向速度分布以及主涡和次涡长度。给出了不同雷诺数下沟道下侧沿沟道长度的摩擦系数分布。对于初始方程的差分逼近，采用控制体积法;用SIMPLE程序找到了速度和压力之间的关系。对于问题的数值解，介绍了以下几种QUICK格式:McCormack的二阶精度，Warming - Cutler - Lomax的三阶精度和Abarbanel - Gotlieb - Turkel的四阶精度。为了证实数值结果的正确性，将数值结果与文献资料中的实验数据进行了比较

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Numerical Schemes Comparison in Solving the Problem of Laminar Flow in the Suddenly Expanding Channel

The paper studies fluid flow in a two-dimensional channel with sudden expansion (x/h = 2). Calculations were made for the laminar flow mode based on numerical integration of the nonstationary Navier --- Stokes equations. Various flow characteristics were determined at Re = 100--800. Results were obtained for the longitudinal speed profiles in various channel sections and lengths of the primary and secondary vortices at various values of the Reynolds number after the step. The friction coefficient distribution on the channel lower side along its length is presented for various values of the Reynolds number. For the difference approximation of the initial equations, the control volume method was applied; relationship between speed and pressure was found using the SIMPLE procedure. For numerical solution of the problem, the following QUICK schemes were introduced: McCormack's second-order accuracy, Warming --- Cutler --- Lomax's third-order accuracy and Abarbanel --- Gotlieb --- Turkel's fourth-order accuracy. To confirm correctness, numerical results were compared with the experimental data taken from the literature sources

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来源期刊

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Mathematics-Mathematics (all)

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal is aimed at publishing most significant results of fundamental and applied studies and developments performed at research and industrial institutions in the following trends (ASJC code): 2600 Mathematics 2200 Engineering 3100 Physics and Astronomy 1600 Chemistry 1700 Computer Science.