NUMERICAL JET ATOMISATION: PART Ⅰ: DNS SIMULATION OF PRIMARY BREAK UP

机译：射流原子化：第一部分：主中断的DNS模拟

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DNS simulations are carried out to obtain information in the dense zone of a spray where nearly no experimental data are available. Interface tracking is ensured by Level Set method, Ghost Fluid Method (GFM) is used to capture accurately sharp discontinuities for pressure, density and viscosity. Coupling between Level Set and VOF method is used for mass conservation. Fluid motion is predicted with a projection method for incompressible flows. The numerical methods are described and validations are presented. First results are then presented for 3D simulation of the primary break-up of a liquid jet with the Level Set-VOF-Ghost Fluid method and the results can help to determine closure relation in the ELSA model [Part II of the paper] which is based on a single-phase Eulerian model and on the transport equation for the mean liquid/gas interface density in turbulent flows.

机译：进行DNS模拟以获得喷雾密集区域中的信息，在该区域中几乎没有实验数据可用。界面跟踪通过“水平设置”方法来确保，“鬼液”方法（GFM）用于准确捕获压力，密度和粘度的尖锐不连续性。水平集和VOF方法之间的耦合用于质量守恒。流体运动通过不可压缩流的投影方法进行预测。描述了数值方法并给出了验证。然后给出了使用Level Set-VOF-Ghost Fluid方法对液体射流的主要破裂进行3D模拟的初步结果，这些结果可帮助确定ELSA模型中的闭合关系[本文的第二部分]基于单相欧拉模型和湍流中平均液/气界面密度的输运方程。

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《American Society of Mechanical Engineers(ASME) Joint U.S.-European Fluids Engineering Division Summer Conference 2006(FEDSM2006) vol.1 pt.A; 20060717-20; Miami,FL(US)》|2006年|547-554|共8页
会议地点 MiamiFL(US)
作者
T. Menard; P.A. Beau; S. Tanguy; F.X. Demoulin; A. Berlemont;
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UMR6614-CORIA BP 12 Avenue de l'Universite 76801 Saint-Etienne-du-Rouvray France;

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原文格式 PDF
正文语种 eng
中图分类工程流体力学;
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NUMERICAL JET ATOMISATION: PART Ⅰ: DNS SIMULATION OF PRIMARY BREAK UP

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