Subgrid scale modeling of droplet bag breakup in VOF simulations

IF 3.6 2区 工程技术 Q1 MECHANICS International Journal of Multiphase Flow Pub Date : 2024-08-14 DOI:10.1016/j.ijmultiphaseflow.2024.104958
Austin Han, Olivier Desjardins
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Abstract

The mesh-dependency of the breakup of liquid films, including their breakup length scales and resulting drop size distributions, has long been an obstacle inhibiting the computational modeling of large-scale spray systems. With the aim of overcoming this barrier, this work presents a framework for the prediction and modeling of subgrid-thickness liquid film formation and breakup within two-phase simulations using the volume of fluid method. A two-plane interface reconstruction is used to capture the development of liquid films as their thickness decreases below the mesh size. The breakup of the film is predicted with a semi-analytical model that incorporates the film geometry captured through the two-plane reconstruction. The framework is validated against experiments of the bag breakup of a liquid drop at We=13.8 through the comparison of the resulting drop size and velocity distributions. The generated distributions show good agreement with experimental results for drop resolutions as low as 25.6 cells across the initial diameter. The presented framework enables these drop breakup simulations to be performed at a computational cost three orders of magnitude lower than the cost of simulations utilizing adaptive mesh refinement.

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VOF 模拟中液滴袋破裂的子网格尺度建模
长期以来,液膜破裂(包括破裂长度尺度和由此产生的液滴大小分布)与网格的关系一直是阻碍大规模喷雾系统计算建模的障碍。为了克服这一障碍,本研究提出了一个框架,利用流体体积法在两相模拟中对亚网格厚度液膜的形成和破裂进行预测和建模。双平面界面重构用于捕捉液膜在厚度减小到网格尺寸以下时的发展过程。利用半解析模型预测薄膜的破裂,该模型结合了通过双平面重构捕捉到的薄膜几何形状。通过比较产生的液滴大小和速度分布,在 We=13.8 条件下对液滴的破袋实验验证了该框架。生成的分布与实验结果非常吻合,液滴分辨率低至初始直径的 25.6 个单元。所提出的框架使液滴破裂模拟的计算成本比利用自适应网格细化的模拟成本低三个数量级。
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来源期刊
CiteScore
7.30
自引率
10.50%
发文量
244
审稿时长
4 months
期刊介绍: The International Journal of Multiphase Flow publishes analytical, numerical and experimental articles of lasting interest. The scope of the journal includes all aspects of mass, momentum and energy exchange phenomena among different phases such as occur in disperse flows, gas–liquid and liquid–liquid flows, flows in porous media, boiling, granular flows and others. The journal publishes full papers, brief communications and conference announcements.
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