Comparison Study Between Galerkin Finite Element Method and Finite Volume Method for Diffusion Problem

Wah Yen Tey, Yutaka Asako, Keng Yinn Wong
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Abstract

The finite element method (FEM) is a robust and widely applied numerical scheme in the simulation of engineering problems, especially in structural mechanics. However, FEM is not as popular as the finite volume method (FVM) in Computational Fluid Dynamics (CFD), possibly due to its complicated numerical procedures. Indeed, FEM possesses tremendous advantages compared with FVM, particularly in dealing with complex geometry and rendering attractive flexibility to modify the interpolation functions. It is well-known that FEM and FVM differ in mathematical formulation, yet there is a lack of practical comparison between them. Therefore, the paper aims to develop a Galerkin FEM (GFEM) model, investigate its strengths and weaknesses compared with FVM, and discuss the conciliation between FEM and FVM. Our case study focuses on a two-dimensional diffusion problem comprising steady and transient cases, with and without heat generation. Our investigation revealed that GFEM does not possess conservative properties, which might yield spurious heat flux, leading to a 2 – 4% overestimation of the temperature field, depending on the amount of heat generation. Moreover, GFEM incurs approximately 34% higher computational time than FVM. However, FVM can be perceived as a special form of GFEM, and their relations were discussed.
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针对扩散问题的 Galerkin 有限元方法与有限体积法对比研究
有限元法(FEM)是模拟工程问题,尤其是结构力学问题的一种稳健而广泛应用的数值方案。然而,在计算流体动力学(CFD)中,有限元法并不像有限体积法(FVM)那样流行,这可能是由于其复杂的数值计算程序造成的。事实上,与有限体积法相比,有限元法具有巨大的优势,特别是在处理复杂几何形状和灵活修改插值函数方面。众所周知,有限元和有限差分在数学表达上有所不同,但两者之间缺乏实际比较。因此,本文旨在开发一种 Galerkin FEM(GFEM)模型,研究其与 FVM 相比的优缺点,并讨论 FEM 与 FVM 之间的协调问题。我们的案例研究侧重于一个二维扩散问题,包括稳定和瞬态两种情况,有热量产生和无热量产生两种情况。我们的研究发现,GFEM 不具备保守特性,可能会产生虚假的热通量,导致温度场被高估 2 - 4%,具体取决于发热量的多少。此外,GFEM 的计算时间比 FVM 高出约 34%。不过,FVM 可以看作是 GFEM 的一种特殊形式,并讨论了它们之间的关系。
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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