基于 FEM 和 FDM 的新型高效混合方法,用于求解带强制项的布尔格斯方程

Aysenur Busra Cakay, Selmahan Selim
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引用次数: 0

摘要

本文研究了具有强迫效应的布尔格斯方程的数值解法。文章提出了三种混合方法(TDFEM2、TDFEM3 和 TDFEM4),将时间上的两点、三点和四点离散与空间上的 Galerkin 有限元方法相结合。这些方法使用时间上的后向有限差分法和空间上的有限元法来求解布尔格斯方程。然后使用 MATLAB 计算机代码求解每个时间步的非线性常微分方程系统。为了检验三种方法的效率和精度,我们考虑了三个伯格斯问题,对三种方法进行了比较。这些方法的精度用误差规范表示。与文献中现有的数值方案相比,组合方法在小粘度情况下具有优势,可以在更短的时间内得到高精度的解。与文献中许多为求解布尔格斯方程而开发的现有数值方案相比,这些方法可以在粘度值非常小的情况下表现出正确的物理行为。研究表明,TDFEM2、TDFEM3 和 TDFEM4 是解决科学和工程学各领域中出现的伯格斯抛物型偏微分方程的有竞争力的数值方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A New Efficient Hybrid Method Based on FEM and FDM for Solving Burgers’ Equation with Forcing Term
This paper presents a study on the numerical solutions of the Burgers’ equation with forcing effects. The article proposes three hybrid methods that combine two-point, three-point, and four-point discretization in time with the Galerkin finite element method in space (TDFEM2, TDFEM3, and TDFEM4). These methods use backward finite difference in time and the finite element method in space to solve the Burgers’ equation. The resulting system of the nonlinear ordinary differential equations is then solved using MATLAB computer codes at each time step. To check the efficiency and accuracy, a comparison between the three methods is carried out by considering the three Burgers’ problems. The accuracy of the methods is expressed in terms of the error norms. The combined methods are advantageous for small viscosity and can produce highly accurate solutions in a shorter time compared to existing numerical schemes in the literature. In contrast to many existing numerical schemes in the literature developed to solve Burgers’ equation, the methods can exhibit the correct physical behavior for very small values of viscosity. It has been demonstrated that the TDFEM2, TDFEM3, and TDFEM4 can be competitive numerical methods for addressing Burgers-type parabolic partial differential equations arising in various fields of science and engineering.
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