Evaluation of Level Set reinitialization algorithms for phase change simulation on unstructured grids

IF 0.8 Q4 Environmental Science

Houille Blanche-Revue Internationale De L Eau Pub Date : 2020-04-01 DOI:10.1051/lhb/2020016

Guillaume Sahut, G. Ghigliotti, G. Balarac, P. Marty

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引用次数: 2

Abstract

In this study, we present different numerical methods for the simulation of liquid-vapor phase change (boiling). We use a Level Set formalism to capture the liquid-vapor interface. Such a formalism requires a reinitialization (aka redistancing) step of the Level Set function after advection. This step is critical for phase change simulation as it must neither move the interface nor induce perturbations in the Level Set function profile, otherwise the normal vector to the interface and its curvature, two quantities that are crucial to define respectively the interface velocity due to phase change and the pressure jump at the interface due to surface tension, would be in turn affected by too large numerical errors. Here we present a comparison of different reinitialization algorithms of the Level Set function for boiling simulations, on structured and unstructured grids. These methods are then validated against the analytical case of a static growing bubble with a fixed mass transfer rate. In particular, we observe that at the time corresponding to a doubled bubble radius, the error on the bubble radius decreases with the grid cell size for all presented methods.

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非结构化网格相变仿真的水平集重新初始化算法评价

在这项研究中，我们提出了不同的数值方法来模拟液-气相变(沸腾)。我们使用水平集的形式来捕捉液-气界面。这种形式要求在平流之后对Level Set函数进行重新初始化(即重新保持距离)。这一步对于相变模拟是至关重要的，因为它既不能移动界面，也不能在Level Set函数剖面中引起扰动，否则，界面的法向量及其曲率这两个量对于分别定义由相变引起的界面速度和由表面张力引起的界面压力跳变至关重要，这两个量反过来又会受到过大的数值误差的影响。在这里，我们提出了不同的重新初始化算法的水平集函数沸腾模拟的比较，在结构化和非结构化网格。然后用固定传质速率的静态气泡生长分析实例验证了这些方法。特别是，我们观察到，在气泡半径加倍时，气泡半径上的误差随着网格单元的大小而减小。

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

Houille Blanche-Revue Internationale De L Eau 环境科学-水资源

CiteScore

0.40

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： La Houille Blanche, revue internationale de l ''eau/International Water Journal, is the only almost all French-written journal of Water science. It promotes the dissemination of research and innovative practices in the field of water, as a key resource for everyday use for human needs, agriculture, energy and transport, and hydraulic public works. This includes environmental and risk assessment and management issues related to hydrology, meteorology, flood, low flows and drought, as well as issues in the field of fluid mechanics, hydraulics machinery, multiphase flows, microfluidics... La Houille Blanche, International Water Journal, is cited by Science Citation Index Expanded of Institute for Scientific Information (I.S.I) in USA, and by CNRS in France; since 1902, the journal publishes high-standard relevant peer-reviewed research papers. La Houille Blanche also provides more general information and recent news about the water world, and the SHF association and its members life: scientific events, book review, R & D advancements, … Six issues per year. Thematical journal for original articles and reviews mostly in French.