A general pressure equation based method for incompressible two-phase flows

IF 1.7 4区 工程技术 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Hormuzd Bodhanwalla, Dheeraj Raghunathan, Y. Sudhakar
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引用次数: 0

Abstract

We present a fully-explicit, iteration-free, weakly-compressible method to simulate immiscible incompressible two-phase flows. To update pressure, we circumvent the computationally expensive Poisson equation and use the general pressure equation which is solved explicitly. In addition, a less diffusive algebraic volume-of-fluid approach is used as the interface capturing technique and in order to facilitate improved parallel computing scalability, the technique is discretised temporally using the operator-split methodology. Our method is fully-explicit and stable with simple local spatial discretization, and hence, it is easy to implement. Several two- and three-dimensional canonical two-phase flows are simulated. The qualitative and quantitative results prove that our method is capable of accurately handling problems involving a range of density and viscosity ratios and surface tension effects.

Abstract Image

基于一般压力方程的不可压缩两相流方法
我们提出了一种全显式、无迭代、弱可压缩的方法来模拟不相溶的不可压缩两相流。为了更新压力,我们避开了计算成本高昂的泊松方程,采用了显式求解的一般压力方程。此外,我们还使用了扩散性较低的流体体积代数方法作为界面捕捉技术,并且为了提高并行计算的可扩展性,我们使用算子分割方法对该技术进行了时间离散化。我们的方法是完全显式的,并且通过简单的局部空间离散化就能保持稳定,因此很容易实现。我们模拟了几种二维和三维典型两相流。定性和定量结果证明,我们的方法能够准确处理涉及一系列密度和粘度比以及表面张力效应的问题。
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来源期刊
International Journal for Numerical Methods in Fluids
International Journal for Numerical Methods in Fluids 物理-计算机:跨学科应用
CiteScore
3.70
自引率
5.60%
发文量
111
审稿时长
8 months
期刊介绍: The International Journal for Numerical Methods in Fluids publishes refereed papers describing significant developments in computational methods that are applicable to scientific and engineering problems in fluid mechanics, fluid dynamics, micro and bio fluidics, and fluid-structure interaction. Numerical methods for solving ancillary equations, such as transport and advection and diffusion, are also relevant. The Editors encourage contributions in the areas of multi-physics, multi-disciplinary and multi-scale problems involving fluid subsystems, verification and validation, uncertainty quantification, and model reduction. Numerical examples that illustrate the described methods or their accuracy are in general expected. Discussions of papers already in print are also considered. However, papers dealing strictly with applications of existing methods or dealing with areas of research that are not deemed to be cutting edge by the Editors will not be considered for review. The journal publishes full-length papers, which should normally be less than 25 journal pages in length. Two-part papers are discouraged unless considered necessary by the Editors.
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