Accurate calculation of bubble and droplet properties in diffuse-interface two-phase simulations

IF 3.8 2区物理与天体物理 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Journal of Computational Physics Pub Date : 2025-06-19 DOI:10.1016/j.jcp.2025.114190

Pranav J. Nathan, Suhas S. Jain

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引用次数: 0

Abstract

In this paper, we address the challenge of accurately calculating droplet/bubble properties (e.g., volume, number) in diffuse-interface two-phase flow simulations. Currently, flood-fill algorithms can truncate a significant portion of the volume of droplets/bubbles contained within the diffuse interface region or artificially merge multiple droplets/bubbles. This error is also dependent on the volume fraction cutoff value, which is typically chosen to be 0.5 arbitrarily, in the flood-fill algorithms. We propose a simple volume-correction approach that incorporates an analytical approximation of the truncated volume to correct for the missing droplet/bubble volumes. This proposed method results in accurately recovering the dispersed phase volumes with minimal volume error over a wide range of volume fraction cutoff values, and hence, can also accurately recover the number of droplets/bubbles. This can be a valuable tool for accurate calculation of drop/bubble size distributions for analysis and for Eulerian-to-Lagrangian conversion of the dispersed phase in multi-scale modeling approaches.

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扩散界面两相模拟中气泡和液滴特性的精确计算

在本文中，我们解决了在扩散界面两相流模拟中精确计算液滴/气泡特性（例如体积，数量）的挑战。目前，洪水填充算法可以截断弥散界面区域内的液滴/气泡体积的很大一部分，或者人工合并多个液滴/气泡。该误差还取决于体积分数截止值，在洪水填充算法中，该截止值通常被任意选择为0.5。我们提出了一种简单的体积校正方法，该方法结合了截断体积的解析近似来校正缺失的液滴/气泡体积。该方法在较宽的体积分数截止值范围内，以最小的体积误差准确地恢复了分散相体积，因此也可以准确地恢复液滴/气泡的数量。这可以是一个有价值的工具，准确计算滴/泡尺寸分布的分析和欧拉-拉格朗日转换的分散相在多尺度建模方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Computational Physics 物理-计算机：跨学科应用

CiteScore

7.60

自引率

14.60%

发文量

763

审稿时长

5.8 months

期刊介绍： Journal of Computational Physics thoroughly treats the computational aspects of physical problems, presenting techniques for the numerical solution of mathematical equations arising in all areas of physics. The journal seeks to emphasize methods that cross disciplinary boundaries. The Journal of Computational Physics also publishes short notes of 4 pages or less (including figures, tables, and references but excluding title pages). Letters to the Editor commenting on articles already published in this Journal will also be considered. Neither notes nor letters should have an abstract.